Asia Communications and Photonics Conference (ACP) 2018 · Asia Communications and Photonics Conference ... ACP is now the largest conference in the Asia-Pacific region on optical

Asia Communications and Photonics Conference (ACP) ● 26 October 2018-29 October 2018 ● Page 1

Asia Communications and Photonics Conference (ACP) 2018 26-29 October 2018

New Century Grand Hotel, Hangzhou, China

Table of Contents

Welcome Message . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

Committees . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Conference Hightlights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

Workshops and Forums . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Agenda of Sessions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

ACP Technical Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

Key to Authors and Presiders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89


Welcome to Hangzhou and to the Asia Communications and Photonics Conference It is a great pleasure to invite you to participate in the Asia Communications and Photonics Conference (ACP) 2018 and share the latest news in communications and photonics science, technology and innovations from leading companies, universities and research laboratories throughout the world. ACP is now the largest conference in the Asia-Pacific region on optical communication, photonics and relevant technologies. ACP has been held annually tracing back to 2001 and jointly sponsored by IEEE Photonics Society, OSA, SPIE, COS and CIC.

The ACP technical conference features a full suite of plenary, invited, and contributed talks given by international academic and industrial researchers who are leaders in their respe- ctive fields. This year’s conference will feature the following topics: Optical Fibers and Fiber-based Devices; Optical Transmission Systems, Subsystems and Technologies; Networks Architectures, Management and Applications; Optoelectronic Devices and Integration; Microwave Pho- tonics and Optical Signal Processing; Ultrafast Photonics and Nonlinear Optics; Photonics for Energy; Photonics for Biology and Medicine; Quantum Photonics and Applications. With a conference program of broad scope and of the highest technical quality, ACP provides an ideal venue to keep up with new research directions and an opportunity to meet and interact with the researchers who are leading these advances. We have over 700 papers scheduled, including nearly 140 invited and 9 tutorial presentations made by many of the world’s most prominent researchers

from academia and industry. We thank all the contributors and authors for making ACP a truly unique, outstanding global event.

Our conference highlight is the Plenary Session scheduled on the morning of Saturday, 27 October. Four outstanding, distinguished speakers will give presentations: Ian Walmsley, Univ. of Oxford will give a talk on Building quantum machines out of light. John E Bowers, Univ. of California, Santa Barbara will also present in this session on Large Scale Photonic Integrated Circuits. Yasuhiko Arakawa, Univ. of Tokyo, Japan will discuss Advances in Quantum Dot Photo- nics: From Science to Practical Implementation. Finally Vincent W. S. Chan, Massachusetts Institute of Technology, USA will give a presentation on Cognitive Optical Network.

In addition to the regular technical sessions, 11 pre-conference workshops will be held on Friday, 26 October starting at 09:00. These workshops will be held free of charge to conference registrants. We would like to thank the workshop organizers and speakers for the excellent program.

Best Paper Awards sponsored by OSA will be given to non- invited speaker applicants who are the first authors as well as the presenting author of a paper submitted. This year, Alibaba group, Light: Science & Applications and Synopsys will sponsor the Best Student Paper Awards and Best Poster Awards. The selection will be made by the subcommittees during the conference. Awards will be presented during the

Banquet on Sunday, 28 October. The poster-only session will be held on Sunday, 28 October from 10:30–12:00. This is a good chance for you to meet with the authors and discuss technical issues in-depth.

In addition to the technical program, we have also an impre- ssive range of exhibitions from the relevant industries, pub- licshers, and professional organizations.

We have also prepared a rich social program to facilitate meeting and networking with colleagues from all over the world. A conference welcome reception will be held in the evening on Saturday, 27 October. On the evening of Sunday, 28 October, we will hold a Banquet and Awards Ceremony for conference registrants.

It is an enormous task to organize a conference and it is impossible to succeed without the dedicated efforts of many supporters and volunteers. We are indebted to the entire Technical Program Committee and the Subcommittee Chairs who have worked persistently throughout the whole year to invite speakers, solicit and review papers, organize the technical sessions which results in the excellent technical program. We also thank the staff and volunteers of Zhejiang Univ. and China Jiliang Univ. We also thank the professional societies IEEE Photonics Society and OSA, and SPIE for sponsoring the event.

Sincerely,

Jian-Jun He Zhejiang Univ., China

General Chair

Perry Ping Shum Nanyang Tech. Univ., Singapore

General Chair

Xinyong Dong China Jiliang Univ., China

General Chair


Committees General Chairs Jian-Jun He, Zhejiang Univ., China Xinyong Dong, China Jiliang Univ., China Perry Ping Shum, Nanyang Tech. Univ., Singapore

General Co-Chairs Chao Lu, Hong Kong Poly. Univ., China Zuyuan He, Shanghai Jiao Tong Univ., China Limin Tong, Zhejiang Univ., China

Technical Program Committee Chairs Min Qiu, Westlake Univ., China Kun Xu, Beijing Univ. Post Telecom., China Daoxin Dai, Zhejiang Univ., China Jie Luo, Yangtze Optical Fibre and Cable Joint Stock Limited

Company，China Gangxiang Shen, Soochow Univ., China Dongning Wang, China Jiliang Univ., China

Local Organizing Committee Chunliu Zhao, China Jiliang Univ., China, Chair Yaocheng Shi, Zhejiang Univ., China, Chair Ruifu Huang, China Jiliang Univ., China Xuke Chen, China Jiliang Univ., China Chengrong Shen, China Jiliang Univ., China Xiaohang Liu, Mingjia Technology Company, China

Steering Committee Xiaomin Ren, Beijing Univ. of Posts and Telecommunications,

China, Chair Yasuhiko Arakawa, Univ. of Tokyo, Japan Andrew Brown, SPIE, USA Connie J. Chang-Hasnain, Univ. of California, Berkeley, USA Naomi Chavez, OSA, USA Arthur Chiou, Yang-Ming Univ., Taipei, China Yun C. Chung, Korea Advanced Inst. of Science and

Technology, Korea Sailing He, Zhejiang Univ., China & KTH, Sweden Chennupati Jagadish, Australian National Univ., Australia Christopher Jannuzzi, IEEE Photonics Society, USA

Thomas L. Koch, Univ. of Arizona, USA Ming-Jun Li, Corning Inc., USA Xingde Li, Johns Hopkins Univ., USA Xiang Liu, Huawei Technologies, USA Chao Lu, Hong Kong Polytechnic Univ., China Qingming Luo, Wuhan National Laboratory for

Optoelectronics & Huazhong Univ. of Science and Technology, China

Perry Ping Shum, Nanyang Technological Univ., Singapore Xiaomin Ren, Beijing Univ. of Posts and Telecommunications,

China Yikai Su, Shanghai Jiao Tong Univ., China Qi Yang, Wuhan Research Inst. of Posts and Telecommuni-

cations, China Bingkun Zhou, Tsinghua Univ., China

Subcommittees

Track 1: Optical Fibers and Fiber-based Devices Wei Jin, Hong Kong Polytechnic Univ., China, Chair Liyang Shao, Southern Univ. of Science and Technology,

China, Co-Chair Baiou Guan, Jinan Univ., China, Co-Chair Xueming Liu, Zhejiang Univ., China, Co-Chair Nan-Kuang Chen, Liaocheng Univ., China Yongkang Dong, Harbin Inst. of Technology, China Xinyu Fan, Shanghai Jiao Tong Univ., China Young-Gen Han, Hanyang Univ., Korea Minglie Hu, Tianjin Univ., China Yunqi Liu, Shanghai Univ., China Yange Liu, Nankai Univ., China Zhichao Luo, South China Normal Univ., China Ting Mei, Northwestern Polytechnical Univ., China Chengbo Mou, Shanghai Univ., China Kevin P. Chen, Univ. of Pittsburgh, USA Chao Wang, Kent Univ., UK Yuncai Wang, Taiyuan Univ. of Technology, China Yiping Wang, Shenzhen Univ., China Zinan Wang, Univ. of Electronic Science and Technology of

China, China

Qiang Wu, Northumbria Univ., UK Shangran Xie, Max Planc Inst., Germany Fei Xu, Nanjing Univ., China Scott Yuan, Johns Hopkins Univ., USA Libo Yuan, Guilin Univ. of Electronic Technology, China Lin Zhang, Aston Univ., UK Xuping Zhang, Nanjing Univ., China Guiyao Zhou, South China Normal Univ., China Tao Zhu, Chongqing Univ., China Weihong Bi, Yanshan University, China

Track 2: Optical Transmission Systems, Subsystems and Technologies Guifang Li, Univ. of Central Florida, USA, Chair Songnian Fu, Huazhong Univ. of Science and Technology,

China, Co-Chair Lilin Yi, Shanghai Jiao Tong Univ., China, Co-Chair Tianwai Bo, KAIST, Korea Xi Chen, Nokia Bell Labs, USA Michael Eiselt, ADVA Optical Networking, Germany Yves Jaouen, Télécom Paris Tech, France Magus Karlsson, Chalmers Univ. of Technology, Sweden Zhengxuan Li, Shanghai Univ., China Borui Li, Huawei Technologies Co., Ltd., China Takayuki Mizuno, NTT, Japan George Papen, UC San Diego, USA Periklis Petropoulos, Univ. of Southampton, UK David Plant, McGill Univ., Canada Naoki Suzuki, Mitshbishi Electric, Japan Liang Wang, Chinese Univ. of Hong Kong, China Fatih Yaman, NEC Laboratories, USA Kangping Zhong, MACOM technology solutions, China

Track 3: Networks Architectures, Management and Applications Lena Wosinska, KTH Royal Inst. of Technology, Sweden,

Chair Christine Tremblay, École de technologie supérieure (ÉTS),

Canada, Co-Chair Marija Furdek, KTH Royal Inst. of Technology, Sweden,

Co-Chair


Zuqing Zhu, Univ. of Science and Technology of China, China,

Co-Chair André Girard, Canada National Committee of the IEC on

Fibre Optics, Canada

Weigang Hou, Northeastern Univ., China Brigitte Jaumard, Concordia Univ., Canada Kim Khoa Nguyen, École de technologie supérieure, Canada Wei Lu, Univ. of Science and Technology of China, China Carmen Mas Machuca, Technical Univ. of Munich, Germany Avishek Nag, Univ. College Dublin, Ireland Wenda Ni, Azure Networking, Microsoft, Canada Md. Nooruzzaman, Trinity College Dublin, Ireland Xiaodan Pang, Infinera, Sweden Jelena Pesic, Nokia Bell Labs, France Chathurika Ranaweera, Univ. of Melbourne, Australia Houman Rastegarfar, Univ. of Arizona, USA Jesse Simsarian, Nokia Bell Labs, USA Yongli Zhao, Beijing Univ. of Posts and Telecommunications,

China Min Zhu, Southeast Univ., China

Track 4: Optoelectronic Devices and Integration Eric Cassan, Univ. of Paris-Sud, France, Chair Liu Liu, South China Normal Univ., China, Co-Chair Po Dong, Nokia Bell Lab, USA, Co-Chair Yikai Su, Shanghai Jiao Tong Univ., China, Co-Chair Xinlun Cai, Sun Yat-sen Univ., China Long Chen, Acacia Communications, USA Wei Shi, Laval Univ., Canada Haoshuo Chen, Nokia, USA Joyce Poon, Univ. of Toronto, Canada Andrew Poon, HKUST, China Stefan Preble, Rochester Inst. of Technology, USA Xiankai Sun, Chinese Univ. of Hong Kong, China Kevin Williams, Eindhoven Univ. of Technology, Netherland Danxia Xu, National Research Council, Canada Yu Yu, Huazhong Univ. of Science and Technology, China

Track 5: Microwave Photonics and Optical Signal Processing Benjamin J. Eggleton, Univ. of Sydney, Australia, Chair Chester Shu, Chinese Univ. of Hong Kong, China, Co-Chair Shiming Gao, Zhejiang Univ., China, Co-Chair

Xinliang Zhang, Huazhong Univ. of Science and Tech., China,

Co-Chair Amol Choudhary, Univ. of Sydney, Australia Peucheret Christophe, Univ. of Rennes, France Chaoran Huang, Princeton Univ., USA Christina Lim, Univ. of Melbourne, Australia Yong Liu, Univ. of Electronic Science and Technology of

China, China Zhixin Liu, Univ. College London, UK Arnan Mitchell, RMIT Univ., Australia Shilong Pan, Nanjing Univ. of Aeronautics and Astronautics,

China Li Pei, Beijing Jiaotong Univ., China Dawn Tan, Singapore Univ. of Design Technology, Singapore Jian Wang, Huazhong Univ. of Science and Technology,

China Lin Yang, Chinese Academy of Sciences, China Xiaoke Yi, Univ. of Sydney, Australia Linjie Zhou, Shanghai Jiao Tong Univ., China

Track 6: Ultrafast Photonics and Nonlinear Optics Jianrong Qiu, Zhejiang Univ., China, Chair Werner J. Blau, Trinity College Dublin, Ireland, Co-Chair Yong-Won Song, Korea Inst. of Science and Technology,

Korea, Co-Chair Jae-Hoon Han, Korea Inst. of Science and Technology, Korea Xiaofeng Liu, Zhejiang Univ., China Sze Y. Set, Univ. of Tokyo, Japan Zhongqi Pan, Univ. of Louisiana Lafayette, USA Mark Pelusi, Univ. of Sydney, Australia Jun Wang, Chinese Academy of Sciences, China Fengqiu Wang, Nanjing Univ., China

Track 7: Photonics for Energy Feng Gao, Linköping Univ., Sweden, Chair Wallace Choy, the Univ. of Hong Kong, China, Co-Chair Yang Yang, Zhejiang Univ., China, Co-Chair Jianpu Wang, Nanjing Tech Univ., China, Co-Chair Daleo Anthony, Aix Marseille Université, CNRS, France Letien Dou, Purdue Univ., USA Jean Michel Nunzi, Queens Univ., Canada Ifor David William Samuel, Univ. of St-Andrews, UK Tzebin Song, Lawrence Berkeley National Laboratory, USA

Le Wang, China Jiliang Univ., China Jeong Weon Wu, Ewha Womans Univ., Korea Liu Yang, Zhejiang Univ., China Jingbi You, Inst. of Semiconductors, Chinese Academy of

Sciences, China

Track 8: Photonics for Biology and Medicine Dennis Matthews, UC Davis College of Engineering, USA,

Chair Jun Qian, Zhejiang Univ., China, Co-Chair Ewa Goldys, Univ. of New South Wales, Australia, Co-Chair Jürgen Popp, Friedrich Schiller Univ. Jena, Germany Anna Wang Roe, Zhejiang Univ., China Zhen Yuan, Univ. of Macau, China Tymish Y. Ohulchanskyy, Shenzhen Univ., China Fake Lu, State Univ. of New York, USA Hao He, Shanghai Jiao Tong Univ., China Liwei Liu, Shenzhen Univ., China Wing-Cheung Law, Hong Kong Polytechnic Univ., China Ling Wang, EMBL, Heidelberg, Germany Bin Liu, National Univ. of Singapore, Singapore

Track 9: Quantum Photonics and Applications Yanqing Lu, Nanjing Univ., China, Chair Xifeng Ren, Univ. of Science and Technology of China, China,

Co-Chair W. Steve Kolthammer, Imperial College London, UK,

Co-Chair Xianmin Jin, Shanghai Jiao Tong Univ., China, Co-Chair Guoping Guo, Univ. of Science and Technology of China,

China Lijian Zhang, Najing Univ., China Franco Nori, Institute of Physical and Chemical Research,

Japan Man-Hong Yung, Southern Univ. of Science and Technology,

China Myungshik Kim, Imperial College London, UK Shengwang Du, Hong Kong Univ. of Science and Technology,

China Lin Tian, Univ. of California Merced, USA Jiaming Li, Shanghai Jiao Tong Univ., China Brian Smith, Univ. of Oregon, USA Renbao Liu, Chinese Univ. of Hong Kong, China


General Information

Conference Venue: New Century Grand Hotel Hangzhou Address: 818 Middle Shixin Road (or Shixin Zhong Lu), Xiaoshan District, Hangzhou, China

Accessibility

The New Century Grand Hotel Hangzhou is a five-star luxury hotel located in the Xiaoshan central business district of Hangzhou, Zhejiang Province, China. It is only 22 km far from Hangzhou Xiaoshan International Airport, 21 km far from Hangzhou East Railway Station and 15 km far from West Lake, the most famous scenic area of Hangzhou and even eastern China. It is easy accessible also because the airport shuttle bus (Xiaoshan direction) has a stop (before the destination) near the hotel, and the Metro Line 2 has a station, i.e. People Square Station (Exit D), just outside the hotel.

Please mention full name and address of the hotel when you take taxi since there are other several hotels named with “New Century Grand Hotel” in the same city.

Transportation

From Hangzhou Xiaoshan International Airport

By Airport Shuttle Bus (Recommended): Take Airport Shuttle Bus (Xiaoshan direction) and get off at New Century Grand Hotel Hangzhou (about 35 min, 15 RMB)

By Taxi: 22 km to New Century Grand Hotel Hangzhou (about 35 min, 75 RMB)

From Hangzhou East Railway Station

By Metro (Recommended): Take Metro Line 4 (Puyan direction) to Qianjiang Road Station, transfer to Metro Line 2 (Zhaoyang direction) and get off at People Square Station. Then 1 min walk to the hotel through Exit D (about 40 min, 5 RMB).

By Taxi: 21km to New Century Grand Hotel Hangzhou (about 39 min, 53 RMB)

From Hangzhou Railway Station

By Metro (Recommended): Take Subway Line 1 (Linping/ Jiangbin direction) to Fengqi Road Station then transfer to line 2 (Zhaoyang direction) and get off at People Square Station. 1 min walk to the hotel through Exit D (about 1 hour, 5 RMB).

By Taxi: 16km to New Century Grand Hotel Hangzhou (about 26 min, 46 RMB)

From Shanghai Hongqiao/Pudong International Airport

Take a taxi or Metro to Shanghai Hongqiao Railway Station. Then take a high-speed train to Hangzhou East Railway Station (about 1h, 73 RMB). Then you can refer to the above suggested methods from there to the hotel.

Registration Location: Lobby of New Century Grand Hotel Hangzhou

Hours: 08: 30-18: 00 Friday, 26 October

08: 00-18: 00 Saturday, 27 October

08: 00-18: 00 Sunday, 28 October

08: 00-16: 00 Monday, 29 October

Speaker Preparation All oral presenters should check in at the corresponding session room at least ten minutes prior to their scheduled talk to upload and check their presentation. No shows of the oral presentation will be reported to Conference management and these papers will not be published.

Poster Preparation Authors should prepare their poster before the poster before the poster session starts. The poster must not exceed the boundaries of the display board and A0 size is recommended. Authors are required to be standing by their poster for the duration of their allocated session to answer questions and further discuss their work with attendees. No shows will be reports to Conference management and these papers will not be published.

Poster Board Size – 1m (Width) * 2m (Height) Set-up Time: Sunday, 28 October from 9:30-10:30 Tear-down Time: Sunday, 28 October from 12:00-12:30

Poster Session Time: 10: 30-12: 00, Sunday, 28 October Venue: Mingyi Hall, 4F, New Century Grand Hotel

The poster session is designed to provide an opportunity for selected papers to be presented in greater visual detail and facilitate vivid discussions with attendees. About 270 posters will be displayed during ACP 2018. Authors will remain in the vicinity of the bulletin board for the duration of the session to answer questions.


Exhibition

The ACP Exhibition is open to all attendees. Location: Public area, 4F, New Century Grand Hotel Hang- zhou

Hours:

09: 00-18: 00 Saturday, 27 October

09: 00-18: 00 Sunday, 28 October

09: 00-16: 00 Monday, 29 October

Tea & Coffee Breaks

10:30-11:00 Friday, 26 October

15:30-16:00 Friday, 26 October

10:00-10:30 Saturday, 27 October


10:30-12:00 Sunday, 28 October


10:30-11:00 Monday, 29 October


Lunches

Three-day buffet lunches (Oct. 27-29) in New Century Grand Hotel Hangzhou are included in the registration fee for all registered delegates. And lunch tickets are provided within the badge.

Location: New Century Hall, 4F, New Century Grand Hote Hangzhoul

Hours:




Conference Materials ACP 2018 Technical Digest will be provided in a USB drive and not available in print form. The ACP 2018 Technical Digest material is composed of the 3-page summaries of invited and accepted contributed papers. The Technical Digest material is included with a technical conference registration and can be found in your registration bag. The Digest will be available on IEEE Xplore Digital Library (http://www.ieee.org/web/publications/ xplore/) after the conference. IEEE Xplore Digital Library is archived and indexed by INSPEC R and EI Compendex, where it will be available to the international technical community.

Social Activities

Committees & invited speakers reception

All committee chairs and members, and invited speakers are welcome. The ticket will be provided within the badge.

Other delegates and accompanying people can purchase ticket (RMB 150 per person) at the Registration Desk.

Location: Cafe Mediterranean, 3F, New Century Grand Hotel Hangzhou

Time: 18: 00-21: 00, 26 October

Welcome reception

It is free to all the registered participants.

Location: New Century Hall, 4F, New Century Grand Hotel Hangzhou

Time: 18: 30-21: 30, 27 October

Conference Banquet and Awards Ceremony

The OSA Best Paper Awards, Alibaba Best Student Paper Awards, and LSA/Synopsys Best Poster Awards will be presented at the Banquet and Awards Ceremony.

The Banquet is INCLUDED ONLY in the registration fee for non-student delegates. The ticket is provided within the badge. The student Award recipients will be invited to attend the Banquet and Award Ceremony for free.

Other student delegates and accompanying people can purchase Banquet ticket (RMB 500 per person) at the Regi- stration Desk.

Location: New Century Hall, 4F, New Century Grand Hotel Hangzhou

Time: 18: 30-21: 30, 28 October


Conference Highlights

Plenary Presentations Time: 08:15-12:00, Saturday, 27 Octomber Venue: Grand Dynasty Hall, 4F, New Century Grand Hotel

ACP 2018 will feature four plenary presentations. The presentation will be preceded by an Opening Cere- mony from 8:15-8:30. For more information about the individual presenters, talk titles and biographies appear below.

Building Quantum Machines Out of Light

08:30-09:15

Ian Walmsley Univ. of Oxford, UK President of OSA

Biography: Ian A. Walmsley FRS is Pro-Vice-Chancellor for Research and Hooke Professor of Experimental Physics at the Univ. of Oxford, and a Profes- sorial Fellow at St Hugh's College, Oxford. He is also Director of the NQIT (Networked Quantum Information Technologies) hub within the UK National Quantum Tech- nology Programme, which is led by the Univ. of Oxford. Walmsley was educated at Imperial College London, and The Inst. of Optics, Univ. of Rochester. He was elected a Fellow of the Royal Society in 2012 for his contributions to quantum optics and ultrafast optics, including his development of the spectral phase interferometry for direct electric- field reconstruction (SPIDER) technique. In March 2018 it was announced that Walmsley had been appointed Provost of Imperial College London, succeeding James Stirling on 1 September 2018.

Large Scale Photonic Integra- ted Circuits

09:15-10:00

John E Bowers Univ. of California, Santa Barbara, USA

Biography: John E. Bowers holds the Fred Kavli Chair in Nanotechnology, and is the Director of the Institute for Energy Efficiency and a Professor in the Departments of Materials and Electrical and Computer Engineering at UCSB. He is a cofounder of Aurrion, Aerius Photonics and Calient Networks. Dr. Bowers received his M.S. and Ph.D. degrees from Stanford University and worked for AT&T Bell Laboratories and Honeywell before joining UC Santa Barbara. Dr. Bowers is a member of the National Academy of Engineering and the National Academy of Inventors. He is a fellow of the IEEE, OSA and the American Physical Society, and a recipient of the IEEE Photonics Award, OSA Tyndal Award, the OSA Holonyak Prize, the IEEE LEOS William Streifer Award and the South Coast Business and Technology Entrepreneur of the Year Award. He has published eight book chapters, 600 journal papers, 900 conference papers and has received 54 patents. He and cowor- kers received the EE Times Annual Creativity in Electronics (ACE) Award for Most Promising Technology for the hybrid silicon laser in 2007.

Advances in Quantum Dot Pho- tonics: From Science to Practi- cal Implementation

10:30-11:15

Yasuhiko Arakawa Univ. of Tokyo, Japan

Biography: Yasuhiko Arakawa received B.S., M.S., and PhD degrees in the electrical engineering form the Univ. of Tokyo, in 1975, 1977, 1980, respectively. In 1980, he started his academic carrier by joining Univ. of Tokyo as an assistant professor and was promoted to a full professor in 1993. He is now Professor of Research Center for Advanced Science and technology, Univ. of Tokyo. He is also the director of Nanoelectronics Research Center at Inst. of Industrial Science, Univ. of Tokyo as well as Research Profes- sor at NTT. His current research includes growth and physics of semiconductor nano-technologies for optoelectronic device applications such as quantum dot lasers and various nanostructure devices. He is the recipient of many awards including Niwa Memorial Award, Excellent Paper Award from IECE, Young Scientist Award, International Symposium on GaAs and Related Compound Semiconductors, IBM Award, Distinguished Achievement Award from IEICE, Hattori Hoko Award, Sakura-Kenjiro Award from OITDA, Electronics Award from IEICE, and Nissan Science Award. He has been serving several distinguished international conferences as general chairs including the 17th IEEE Semiconductor Laser Conference. He was Associate Editor of IEEE J. of Quantum Electronics and Editor in Chief of Journal of Japanese Socie- ty of Applied Physics, and he is currently Editor in Chief of Solid Sate Electronics and Regional Editor on New Journal of Physics (IOP). He is in charge for planning the optoelectronics technology-roadmap at the OITDA.


Cognitive Optical Network

11:15-12:00

Vincent W. S. Chan Massachusetts Inst. of Technol., USA

Biography: Vincent W. S. Chan, the Joan and Irwin Jacobs Professor of EECS, MIT, received his BS (71), MS

(71), EE(72), and Ph.D.(74) degrees in EE all from MIT. From 1974 to 1977, he was an assistant professor, EE, at Cornell Univ. He joined MIT Lincoln Laboratory in 1977 and had been Division Head of the Communications and Information Technology Division until becoming the Director of the Laboratory for Information and Decision Systems (1999– 2007). He is currently a member of the Claude E. Shannon Communication and Network Group at the Research Labora- tory of Electronics of MIT. In July 1983, he initiated the Laser Intersatellite Transmission Experiment Program and in 1997, the follow-on Geo-LITE Program. In 1989, he formed the All-Optical-Network Consortium among MIT, AT&T and DEC. He also formed and served as PI the Next Generation Inter- net Consortium, ONRAMP among AT&T, Cabletron, MIT, Nortel and JDS, and a Satellite Networking Research Con- sortium formed between MIT, Motorola, Teledesic and Glo- balstar. He has served in many US/ non-US government advisory boards/committees and the Board of Governors of the Communication Society including VP of Publications. He also has been active with several start-ups and was a director of a Fortune- 500 company and chaired its technical advisory board. He is a Member of the Corporation of Draper Labora- tory and is a member of Eta-Kappa-Nu, Tau-Beta-Pi and Sigma-Xi, and the Fellow of the IEEE and the Optical Society of America. Throughout his career, Professor Chan has spent his research focus on communication and networks, particularly on free space and fiber optical communication and networks and satellite communications. His work has led the way to a successful laser communication demonstration in space and early deployment of WDM optical networks. His recent research emphasis is on heterogeneous (satcom, wireless and fiber) network architectures with stringent performance demands.

Banquet Keynote Talk Time: 18:30-19:00, Sunday, 28 October Venue: New Century Hall, 4F, New Century Grand Hotel

Build up Internet Infrastruc- ture and Services to Help Underdeveloped Regions

18:35-19:05

Chongjin Xie Alibaba Group, China

Biography: Chongjin Xie is a senior director and chief communication

scientist in Alibaba Infrastructure Service, Alibaba Group, leading an optical network research, architecture, design and testing team to develop datacenter optical interconnects and networking technologies to support Alibaba online platform and cloud services. Prior to joining Alibaba Group in 2014, Dr. Xie was a distinguished member of technical staff at Bell Labs, Alcatel-Lucent (now Nokia), doing research on optical communication systems and networks. He did his postdoctoral research at Chalmers Univ. of Technology in Sweden from 1999 to 2001, and received his M.Sc. and Ph.D. degrees from Beijing Univ. of Posts & Telecommunications in 1996 and 1999, respectively. Dr. Xie has published one book, 3 book chapters and over 200 journal and conference papers. He is an associate editor of Journal of Lightwave Technology, a program chair of OFC’2019 and served as chairs, TPC chairs or TPC members in many conferences. Dr. Xie is a Fellow of OSA and a senior member of IEEE.

OSA Best Paper Awards ACP 2018 is pleased to announce that this year’s Best Paper Awards on ACP will be sponsored by OSA:

4 recipients, Lenovo ultrabook & CNY 3,000 for each

The candidates will be nominated by the subcommittee chairs. The winners will be selected by the TPCC during the conference. The awards will be presented at the conference banquet in the evening of Sunday, 28 October.

Alibaba Best Student Paper Awards ACP 2018 is pleased to announce that this year’s Best Student Paper Awards on ACP will be sponsored by Alibaba group:

8 recipients, Apple iPad air2 for each

To be eligible for the award, a student must be the first author of the paper and declare his/her student candidature during online submission; and the student must give the presentation at the conference by himself/herself. The selection will be made by the subcommittees during the conference. The awards will be presented at the conference banquet in the evening of Sunday, 28 October.

LSA/Synopsys Best Poster Awards ACP 2018 is pleased to announce that this year’s Best Poster Awards on ACP will be sponsored by Light: Science and Applications (LSA) and Synopsys separately:

12 recipients, Huawei smart phone for each

The selection will be based on the voting of conference delegates. The awards will be presented at the conference banquet in the evening of Sunday, 28 October.


Workshops and Forums

Towards the Next-Generation Optical Access: 50G-PON Workshop Time: 09:00-12:30, Friday, 26 October Venue: 4F, Tianhong Hall

Organizers: Xiang Liu, Huawei Technologies USA

Description: This special Huawei-sponsored ACP’18 workshop aims to provide a platform for participants to discuss the worldwide industry effort towards the next-generation 50-Gb/s PON that is currently under standardization in both the ITU and the IEEE. This 1/2-day event will be addressing various technologies, covering innovative optical and photonic components, high-speed electronics and DSP algorithms, and system and network architectures, to enable future optical access networks to meet the challenging demands imposed by emerging services such as 4K/8K, 5G, and VR/AR. Invited speakers from leading industrial and academic institutions will be presenting and sharing their visions. This workshop will be open to all participants of ACP 2018. Topics to be addressed include but are not limited to: • Network operators’ views on next-generation PON • 50G-PON standardization and enabling technologies • High speed 25G&50G optics & electrical chips and components

09:00-09:20 Dechao Zhang/Lei Wang/Junwei Li, China Mobile Research Institute, China Topic: Technical requirements on 50G PON

09:20-09:40 Dezhi Zhang, China Telecom, China Topic: 50G TDM-PON: Requirement and Standardization Progress

09:40-10:00 Xiang Liu, Huawei Technologies, USA Topic: Enabling Technologies for High-Performance Low- Cost 50G-PON

10:00-10:20 Songnian Fu, Huazhong Univ. of Science & Technology, China Topic: DSP enabled high-speed PAM-4 fiber optical transmission

10:20-10:40 Lilin Yi, Shanghai Jiao Tong Univ., China Topic: Machine Learning for High-Speed PONs

10:40-10:50 Coffee Break

10:50-11:10 Kangping Zhong MACOM Technology Solutions, USA Topic: Key Technologies for Next Generation High Speed PON

11:10-11:30 Takahiko Shindo NTT Corp., Japan Topic: High power and high efficiency SOA integrated EML for next generation PON system

11:30-11:50 Prof. Linjuan Zhao Inst. of Semiconductors, CAS, China Topic: High speed laser for next generation PON system

11:50~12:20 Panel Discussion

Visible Light Communication Workshop Time: 09:00-12:30, Friday, 26 October Venue: 4F, Tianhe Hall

Organizers: Gong-Ru Lin, National Taiwan Univ.; Nan Chi, Fudan Univ. China; Shuyu Zhang, Fudan Univ. China; Jing Xu, Zhejiang Univ. China

Description: Visible light communication (VLC) has constan- tly received attention as a revolutionary technology and is considered as an appealing alternative for next-generation high-speed wireless communication. This workshop will continue to focus on the technology development and existing problems in VLC and provide a technical forum for brain storming among expert and researchers from academia, industry and government. Eight invited speakers will share with the audience their latest achievement and thinking in VLC, from the system level to the component or even material level.

08:30-09:00 Gong-Ru Lin, National Taiwan University Topic: Advances in Laser Diode White Lighting and Free- Space Communications

09:00-09:20 Shuyu Zhang, Fudan University, China Topic: Micro/Nanophotonics-based organic semiconductors for visible light communications

09:20-09:40 Xiongbin Chen, Chinese Academy of Sciences, China Topic: How to realize high-speed real-time communication with phosphor-based LED

09:40-10:00 Xianqing Jin, Univ. of Sci. and Tech. of China, China Topic: Real-time tracking of mobile light source for outdoor visible light communications

10:00-10:30 Yongjun Liu, Huawei Technologies Co., Ltd, China. Topic: Ultra High Speed Real Time Visible Light Communi- cation Based On Pre-Equalization

10:30-11:00 Coffee break

11:00-11:20 Boon S: Ooi, King Abdullah Univ. of Sci. and Tech., Kingdom of Saudi Arabia Topic: Ultraviolet FSO to laser-based VLC–the role of group- III-nitride devices

11:20-11:40 Jian Chen, Nanjing Univ. of Posts and Telecom- munications, China Topic: Initialization and fast convergence of dynamic equalizers for indoor visible light communication systems

11:40-12:00 Lilin Liu, Sun Yat-Sen Univ., China Topic: Band-pass purple-blue light PIN photo-detector for visible light communications

12:00-12:20 Jing Xu, Zhejiang Univ., China Topic: Underwater Wireless Optical Communication: from the Lab Tank to the Real Sea

Innovative Optical Switches and Their Control Workshop Time: 09:00-12:30, Friday, 26 October Venue: 4F, Mingrui Hall


Organizers: Odile Liboiron-Ladouceur, McGill University, Canada; Gabriela Nicolescu, Polytechnique de Montréal, Canada; Daoxin Dai, Zhejiang University, China; Yaocheng Shi, Zhejiang University, China

Description: As photonic Network traffic demand grows explosively and the traffic becomes to vary dynamically, switches are essential in the intercomnecttivity of computing systems and switches in the optical domain allow for larger bandwidth, high capacity and flexibility. The workshop will present and discuss advanced optical switching technologies and devices. An important aspect of optical switches is their control. Specifically, how optical switches can be embedded within large computing platforms and optimally route information by configuring the optical switch. The workshop will also discuss best practice in the control of optical switches.

09:00-9:20 Odile Liboiron-Ladouceur, McGill University, Canada. Topic: Workshop introduction followed by Canada’s state of optical switches and controllers as an example.

09:20-9:40 Liu Liu, South China Normal University, China Topic: Integrated multimode optical switch on silicon

09:40-10:00 Linjie Zhou, Shanghai Jiao Tong University, China Topic: Silicon photonic switch elements and their scalability

10:00-10:20 Kiyo Ishii, AIST, Japan Topic: Optical switch scalability, optical switch control, and optically switched network control

10:20-10:40 Panel Discussion


11:00-11:20 Yaoyao Ye, Shanghai Jiao Tong University, China Topic: Routing and arbitration in a two-level hierarchical optical network.

11:20-11:40 Zhiyong Li, Chinese Academy of Sciences, China Topic: Issues on Advanced Materials for CMOS Photonic Integration

11:40-12:00 Nicola Calabretta, Eindhoven University of Technology, The Netherlands Topic: Fast Controlled Nanoseconds Photonic Integrated WDM Cross-Connects for Edge-Computing Metro Access and Data Center Networks

12:00-12:30 Panel Discussion

Optical technologies for Terabit data center network Workshop Time: 14:00-16:00, Friday, 26 October Venue: 4F, Tianhong Hall

Organizers: Chao Lu, Hong Kong Polytechnic Univ., Hong Kong

Description: This Huawei-sponsored ACP’18 workshop is a half-day discussion focused on the novel optical technologies for Tbps and beyond data center network (DCN). During this event, we will provide a platform for participants worldwide to discuss the challenges we are facing for next generation DCN. By mapping these challenges to latest industry solutions, we will create a deep and exhaustive view of the opportunities for cost-effective, low power consumption, large capacity DCN. Invited speakers from leading industrial and academic institutions will be sharing their visions and presenting their advanced research work. This workshop will be open to all participants of ACP 2018. Topics to be addressed include but are not limited to: • Communication system architectures in DCN • Novel technologies for Tbps transmission • Si photonics, full integrated or semi-integrated?

14:00-14:30 Changsong Xie, Huawei Technol. Co., Ltd. Topic: Towards Terabit DCN Optical Interconnection

14:30-15:00 Zuqing Zhu, Univ. of Science and Technology of China, China Topic: Technology of China Knowledge-defined Network Orchestration in a Hybrid Optical/Electrical Datacenter Network.

15:00-15:30 Qunbi Zhuge, Shanghai Jiao Tong Univ. China. Topic: Photonics signal processing for Tbit/s DCI application.


16:00-16:30 Shilong Pan, Nanjing Univ. of Aeronautics and Astronautics, China. Topic: General optical component analyzer for charac- terizing key devices in Tbit/s data center network.

16:30-17:00 Jiajia Chen, School of ICT, KTH, Sweden Topic: Communication system architectures and algorithm in DCN/DCI.

17:00-17:30 Po Dong, Bell Labs, USA Topic: The scalability of silicon photonics in data center applications.

17:30-18:00 Guifang Li, Univ. of Central Florida, USA Topic: Few-mode and multi-mode fiber optics for short- reach applications.

Progress of Integrated Optoelectronics Workshop Time: 14:00-16:00, Friday, 26 October Venue: 4F, Mingsi Hall

Organizers: Mark Ding, G.M., Shanghai Industrial μ Technology Research Institute (SITRI), China.

Description: Integrated optoelectronics is empowering several areas, like telecommunication, high-performance computing, DNA sequencing, quantum information, etc.. Distinguished speakers from the industry will discuss the latest advances and trends of the integrated optoelectronics. The following topics will be covered in this forum: • Silicon photonics pilot line in China. • Photonic EDA tools and ecosystem. • Advanced micro-nano processing technologies. • Packaging progress in III-V and silicon photonics. • Digital/analog/image testing in integrated optoelectronics.

14:00-14:20 Wei Wang, SITRI, China. Topic: High Efficiency Si Based Photodetection at SWIR Range

14:20-14:40 Linjie Zhou, Shanghai Jiao Tong Univ., China. Topic: Silicon Optical Switch Development and Challenges.


14:40-15:00 Guowei Cao, 38th Institute of CETC, China. Topic: Completing a Silicon Photonics Ecosystem in China.

15:00-15:20 Songwei Zhang, GoLight, China. Topic: Automatic Packaging and Testing in Silicon Photonics Modules.


15:40-16:00 Min Xue, NUAA, China. Topic: Measurement, Analysis and Calibration of Analog Response for Photonic Integrated Chips.

16:00-16:20 Wanyin Cui, Nanoscribe GmbH, Germany. Topic: Sub-diffraction Limit 3D Printing and Photonic Wire Bonding Technologies.

16:20-16:40 Lam Yee Loy, Denselight Semiconductor, Singapore. Topic: Advances in PIC - Using DenseLight's HiPP TMPlat- form to Deliver Integrated Sensing Optical Engines & Interrogator Systems.

16:40-17:00 Peter Chan, Santec, Japan. Topic: Applications of High Speed, High Accuracy & High Resolution Swept Test Laser.

17:00-17:20 Zi Wang, Hamamatsu, Japan. Topic: Explosive Growth of Communication Speed: The Application of SLM in Optical Vortices.

Innovations of Laser Technologies and Products Workshop Time: 14:00-18:00, Friday, 26 October Venue: 4F, Tianhe Hall

Organizers: Yates Yao, President, Luster LightTech Group Corp; Jianhui Zhou, SVP, Finisar Corporation; Xiang Liu, Distinguished Scientist, Huawei Technol., USA.

Description: The industry forum of ACP is an excellent place where the academics can learn the state of the art of the optics industry in terms of product, technology and market, and exchange ideas with experts from the industry. This is the fifth time for Luster LightTech Corp. to organize the ACP Industry forum. This year's industry forum will focus on laser technologies. Distinguished speakers from the industry will discuss the latest advances and applications of

laser technologies. The following topics may be included in this forum: • Sate of art of Quantum dot lasers, novel integration technology of Silicon/III-V laser for Telecom and Datacom applications • Advances of optical fiber laser technology and products • VCSEL technology and products for communications and 3D sensing

14:00-14:20 Jian-Jun He, Lightip Technologies, China Topic: Low Cost Tunable Semiconductor Laser for 5G and Access Networks

14:20-14:40 Saeid Aramideh, Ranovus, Canada Topic: Quantum Photonics to Enable Terabits/s Capacity per Fiber by Co-packed Optics for Intra-DC Networks

14:40-15:00 Christian Urricariet, Finisar, USA Topic: Tunable DWDM Optics for Next-generation Wireless Networks

15:00-15:20 Akimasa Kaneko, NTT Lab, Japan Topic: Recent Progress on High-Power EML for Next- Generation PON and 5G Networks.


16:00-16:20 John Bowers, University of California, Santa Barbara, USA Topic: Advanced Laser Designs for Large-scale Photonic Integration

16:20-16:40 Christian Urricariet, Finisar, USA Topic: Using VCSELs in 3D Sensing Applications

16:40-17:00 Simon Howe, NKT Photonics, Switzerland GmbH Topic: Ultrafast Lasers and Application in Science and Industry

17:00-17:20 David Li, Hisense Broadband, China Topic: Photonic Device Technology and Commercialization

17:20-17:40 Charley Bu, Accelink Technologies, China Topic: 25Gbps DWDM EML and its New Application on DCI and 5G Bearer Networks

17:40-18:00 Panel discussion Presider: Dr. Yates Yao, Dr. Jianhui Zhou, Dr. Xiang Liu

Applications of New Optical Fibers in Commu- nication and Sensing Workshop Time: 13:30-18:00, Friday, 26 October Venue: 4F, Mingrui Hall

Organizers: Ansion LM Xiong, State Key Laboratory of Optical Fiber and Cable Manufacture Technology, YOFC, China; Perry Ping Shum, Nanyang Technological University, Singapore.

Description: In the past few years, much research effort has been devoted to the development of new optical fibers for further enhancing the quality and the capacity of optical transmission, in particular, ultra-low loss fibers, large-effective- area fibers, few-mode fibers, multi-core fibers, and hollow- core fibers. Meanwhile, the applications of these new optical fibers have been attracting more and more research interest in communication and sensing. But how have they been going? This workshop will provide an overview of some of these application research and development not only in academia but also in industry.

13:30-13:35 Welcome from the ACP2018 General Chair Prof. Perry Shum, Nanyang Technological Univ., Singapore

13:35-14:00 Xiongyan Tang, Network Technology Research Institute, China Unicom, China Topic: Research and Application of G654E Optical Fiber at China Unicom

14:00-14:25 Junjie Li, Jianjun Tang and Xiaoli Huo, China Telecom Beijing Research Institute (CTBRI), China Topic: Application and Future Requirements for ROADM Technology

14:25-14:50 Dechao Zhang, China Mobile Research Institute, China Topic: New Fiber and Optical Requirements on High Speed Transport Network Beyond 100G

14:50-15:15 Wenyu Zhao, China Academy of Information and Communications Technology (CAICT), China Topic: The Recent Trends in Optical Transport Technology and Standards

15:15-15:40 Guifang Li, Univ. of Central Florida, USA Topic: Few-Mode Fibers for Transmission Capacity and Beyond



15:55-16:20 Liangming Xiong, State Key Laboratory of Optical Fiber and Cable Manufacture Technology, YOFC, China Topic: Recent Progress in New or Specialty Fiber and Cable Technologies

16:20-16:45 Perry Shum, School of EEE, Nanyang Techno- logical Univ., Singapore Topic: Optical Fiber Sensors and Applications

16:45-17:10 Yunqi Liu, Shanghai Univ., China Topic: Few Mode Fiber Long-Period Gratings for Mode Division Multiplexing Optical Communications and Optical Sensors

17:10-17:35 Lin Ma, State Key Laboratory of Advanced Optical Communication Systems and Networks, Shanghai Jiao Tong University, China Topic: Few-Mode and Multicore Optical Fibers for High- Density and High-Speed Optical Interconnects Application

17:35-17:50 Closing Speech (by the ACP2018 TPC Chair Prof. Jie Luo, Director of State Key Laboratory of Optical Fiber & Cable Manufacture Technology, CTO of YOFC, China)

Optical 5G Transport Networks - How to Face Reliability with Virtualization? Workshop Time: 15:00-17:00, Friday, 26 October Venue: 4F, Mingde Hall

Organizers: Marija Furdek, KTH Royal Institute of Technology, Sweden; Ognjen Dobrijević, Univ. of Zagreb, Croatia.

Description: The workshop will discuss the performance and operational requirements envisaged for the 5G adoption, as well as their impact on the overall design, realization, and reliability of future 5G-compliant optical networks. Existing 5G architectural guidelines and solutions will be analyzed, examining the role of the data plane, the control plane, the management and orchestration plane, and the services and applications plane in realizing a communication ecosystem

providing five nines or higher availability. A special focus will be put on virtualization aspects dealing with optical infrastructure network slicing in relation to service guarantees for the virtual network users, and with the instantiation of various orchestration, management and control entities. Different 5G stakeholders, including infrastructure owners, network operators, and service providers, will present their view- points and outline their visions on how to address the reliability challenges.

15:00-15:10 Welcome and introduction by the workshop chairs

15:10-15:20 Sameer Sharma, Nokia Bell Labs, USA Topic: Dynamic Network Fabric for 5G

15:20-15:30 Jörg-Peter Elbers, ADVA, Germany Topic: Slice or dice? How to facilitate time-critical services

15:30-15:40 Dan Kilper, University of Arizona, USA Topic: Mesh without Boundaries

15:40-15:50 Marco Ruffini, Trinity College Dublin, Ireland Topic: Reaching long term dependability through short term vulnerability

15:50-16:00 Gangxiang Shen, Soochow University, China Topic: Maximizing Availability-Weighted Slice Capacity for Sliceable Wireless-Optical Broadband Access Networks

16:00-16:10 Wei Lu, Univ. of Science and Technology of China, China Topic: Application-driven network slicing and orchestration in software-defined elastic optical networks

16:10-16:20 Robert Keys, Juniper, Canada Topic: Keep on Running …

16:20-17:00 Q&A Panel discussion

Joint Research Center of Photonics & Joint Centre of Advanced Photonics Research Combined Workshop 2018 Workshop Time: 13:30-18:00, Friday, 26 October Venue: 4F, Tianren Hall

Organizers: Sino-Swedish Joint Research Center of Photonics (JORCEP); ZJU-CUHK Joint Centre of Advanced Photonics Research

Description: The Sino-Swedish Joint Research Center of Photonics (JORCEP) has since 2003 been an ever evolving research and educational collaboration between several Swedish and Chinese universities that annually organizes a multi-disciplinary workshop to promote its joint research. Continuing a new tradition since 2015, the workshop is also this year combined with the annual workshop of that of the Zhejiang University - Chinese University of Hong Kong Joint Centre of Advanced Photonics Research.

13:30-13:50 Sailing He, Sino-Swedish Joint Research Center of Photonics, ZJU/KTH/SCNU, China Topic: Some recent progress in subwavelength photonics

13:50-14:10 Sergei Popov, Royal Institute of Technology (KTH), Sweden Topic: Advances in high-speed optical communication: from SDM to free space THz

14:10-14:30 Yaocheng Shi, Zhejiang University, China Topic: Silicon photonic integrated devices and circuits

14:30-14:50 Jiajia Chen, Royal Institute of Technology (KTH), Sweden/South China Normal University, China Topic: Telecom compatibility of Quantum Key Distribution


15:20-15:40 Lena Wosinska, Royal Institute of Technology (KTH), Sweden Topic: Flexible optical networks: concepts, developments and challenges

15:40-16:00 Zhangwei Yu, Zhejiang Normal University, China Topic: Research at Hangzhou Institute of Advanced Studies

16:00-16:20 Liu Liu, South China Normal University, China Topic: Integration of long-wavelength VCSELs on silicon photonic circuits

16:20- 16:40 Eric Cassan, Université Paris Saclay, France Topic: Recent reports on electrooptical modulation and amplification in silicon photonics


16:40-17:00 Yuqing Jiao, Eindhoven University of Tech- nology (TU/e), Holland Topic: Photonic integrated circuits for beyond telecom applications

Silicon Photonics Workshop Time: 13:30-17:30, Friday, 26 October Venue: 4F, Minghou Hall

Organizers: Zhiping Zhou, Peking Univ., China; Daoxin Dai, Zhejiang Univ., China; Liu Liu, South China Normal Univ., China.

Description: In the past decade silicon Photonics has become one of the most attractive technologies for developing integrated optoelectronic devices. Various silicon photonic building blocks have been developed for not only optical interconnects in near infrared, but also optical sensing in visible and mid-infrared ranges. Large-scale silicon photonic integrated circuits have also been demonstrated successfully. Currently more and more applications for silicon photonics are being explored. This workshop will focus on the future of silicon photonics, including the challenges in the designs, fabrications, tests as well as packages for various devices and circuits.

13:30-13:45 Koji Yamada, Natl Inst of Adv Industrial Sci & Tech, Japan Topic: A 300-mm-wafer silicon photonics technology for ener-gy-efficient and advanced information systems

13:45-14:00 Minbin Yu, Shanghai Institute of Microsystem and Information Technology, CAS, China Topic: Si Photonics technology and PIC process integration challenge

14:00-14:15 Chenglin Xu, Synopsys, Canada Topic: Advanced PIC Design Flow: From Concept to Manu- facture

14:15-14:30 Tao Chu, Zhejiang University, China Topic: Lasers on silicon

14:30-14:45 Di Liang, Hewlett Packard Lab, USA Topic: Heterogeneously Integrated Quantum-Dot Photonics on Silicon

14:45-15:00 Yating Wan, UC Santa Barbara, USA Topic: On-chip detection from directly modulated quantum dot microring lasers on Si

15:00-15:15 Lin Zhang, Tianjin University, China Topic: Robust generation of microresonator-based frequency combs

15:15-15:45 Tee Break

15:45-16:00 Xi Xiao, FiberHome Technologies, WRI, China Topic: How far can pure-silicon optical modulators go, and what's next?

16:00-16:15 Xinlun Cai, Sun Yat-sen University, China Topic: Hybrid Silicon and Lithium Niobate Platform for Optical Signal Processing

16:15-16:30 Ching-Fuh Lin, National Taiwan University Topic: Extremely broadband infrared detection based on Si- technologies

16:30-16:45 Yikai Su, Shanghai Jiao Tong Univ., China Topic: On-chip optical interconnects with high-order mode multiplexing based on subwavelength-grating couplers

16:45-17:00 Lin Yang, Institute of Semiconductor, CAS, China Topic: From optical space switching to optical mode switching

17:00-17:15 Yu Yu, Huazhong Univ. of Science and Technology, China Topic: Mode-selective four wave mixing using silicon waveguide

17:15-17:30 Lan Yang, Washingdon Univ. in St. Louis, USA Topic: Whispering-gallery-mode resonators for functional devices

17:30-17:45 Jianwei Wang, Peking University, China Topic: Large-scale silicon photonic circuits for quantum information technologies

Python Lab Automation Hackathon Workshop Time: 19:00-20:30, Friday, 26 October Venue: 4F, Tianhong Hall

Organizers: Haoshuo Chen, Nokia Bell Labs, USA; Nick Fontaine, Nokia Bell Labs, USA; Roland Ryf, Nokia Bell Labs, USA; Jochen Schröder, Chalmers Univ. of Technology, Sweden.

Description: The main purpose of the event is to connect students, young professionals and experienced researches together to discuss designing, modeling, data processing and lab automation using Python. In this hackathon we will provide several stations/demos, each staffed with a resear- cher.

19:00-19:18 Brief demo introduction:

19:00-19:03 Nick Fontaine, Roland Ryf and Haoshuo Chen, Nokia Bell Labs, USA Topic: Python basics and installation

19:03-19:06 Ruben S. Luis, National Institute of Information and Communications Technology, Japan Topic: Basic DSP for PDM-QPSK signals using Python

19:06-19:09 Jochen Schröder, Chalmers University of Technology, Sweden Topic: QAMPy a DSP chain for optical communication signals

19:09-19:12 Yuqing Jiao and Ronald Broeke, TU/e and brightphotonics, Holland Topic: Photonics IC design using Python

19:12-19:15 Hanzi Huang, Shanghai Univ., China Topic: Deploy a Deep Neural Network model on FPGA using Python

19:15-19:18 Yetian Huang, Shanghai Univ., China Topic: Lab equipment automation using Python

19:18-20:30 Demo and discussion


Conference & Exhibition Map

4F 3F

Room 1: Tianhong Hall (天弘厅) Room 5: Mingde Hall (名德厅) A: Mingdu Hall 3 (名都厅三)

Room 2: Tianhe Hall (天和厅) Room 6: Minghou Hall (名厚厅) B: Mingdu Hall 6 (名都厅六)

Room 3: Mingrui Hall (名睿厅) Room 7: Tianren Hall (天仁厅) C: Mingdu Hall 7 (名都厅七)

Room 4: Mingsi Hall (名思厅) Room 8: Mingyi Hall (名艺厅) D: Mingdu Hall 8 (名都厅八)


Exhibition Map

4F

Booth Coffee Break

1

2

3

4

5-6 7-8

9

10

11

12

13

20

21

22

23

.

24

25

26

28

29

30

31-32

14

27


NOTES


Explanation of Session Codes

M1A.4 Day of the Week Number S = Saturday (Presentation order Su = Sunday within the session) M = Monday Series Number Session 1=First Series of Sessions Designation 2=Second Series of Sessions (alphabetically)

The first letter of the code designates the day of the week (S= Saturday, Su= Sunday, M= Monday). The

second element indicates the session series in that day (for instance, 1would denote the first parallel session in that day). The third element continues alphabetically through a series of parallel sessions. The lettering then restarts with each new series. The number on the end of the code (separated from the session code with a period) signals the position of the talk within the session (first, second, third, etc.). For example, a presentation coded M3C.4 indicates that this paper is being presented on Monday (M) in the third series of sessions (3), and is the third parallel session (C) in that series and the fourth paper (4) presented in that session.

Invited papers are noted with Plenaries are noted with Tutorials are noted with

Invited

Plenary

Tutorial


Asia Communications and Photonics Conference and Exhibition (ACP) — Agenda of Sessions

Friday, 26 October

Room

Tianhong, F4 Workshop

Room Tianhe, F4 Workshop

Room Mingrui, F4 Workshop

Room Mingsi, F4 Workshop

Room Mingde, F4 Workshop

Room Minghou, F4 Workshop

Room Tianren, F4 Workshop

08:30-18:00 Registration, New Century Grand Hotel Lobby, 1F

08:30-12:30

Towards the Next-Generation Optical Access: 50G-PON

Visible Light Communication

Innovative Optical Switches and Their Control


12:30-13:30 Lunch Break

13:30-18:00

Optical technologies for Tbps data center network

Innovations of Laser Technologies and Products

Applications of New Optical Fibers in Communication and Sensing

Progress of Integrated Optoelectronics

Optical 5G Transport Networks - How to Face Reliability with Virtualization?

Silicon Photonics Joint Research Center of Photonics & Joint Centre of Advanced Photonics Research Combined Workshop 2018


17:30-21:00 Committees & invited speakers reception , Cafe Mediterranean, 3F

19:00-20:30 Python Lab Automation Hackathon

Agenda of Sessions



Saturday, 27 October

Room

Mingdu 6 3F

Room Mingdu 7

3F

Room Tianhong

4F

Room Tianhe

4F

Room Minghou

4F

Room Mingrui

4F

Room Mingdu 3

3F

Room Mingsi

4F

Room Mingdu 8

3F

Room Mingde

4F

Room Tianren

4F

Exhibition Area


Conference

Exhibition

08:00-08:30 Opening Ceremony, Grand Dynasty Hall, 4F

08:30-10:00 S1A • Plenary Session I, Grand Dynasty Hall, 4F


10:30-12:00 S2A • Plenary Session II, Grand Dynasty Hall, 4F

12:00-13:30 Lunch Break, New Century Hall, 4F

13:30-15:30

S3A •

Novel Fibers

and

Applications I

S3B •

Distributed

Sensors I

S3C •

Space-

Division

Multiplexing I

S3D •

Data Center

Networks

S3E •

Optics for

Intra-datace

nter, Edge

and Cloud

Applications

S3F •

Optical

Switch and

Tunable

Devices I

S3G •

Optical

Signal

Processing

S3H •

Ultrafast &

Nonlinear

Optics I

S3I •

Novel Light

Sources &

Photoic

Devices

S3J •

III-V Opto-

electronics

S3K •

Best Paper

Award

Competition I


16:00-18:00

S4A •

Fiber Lasers

I

S4B •

Optical

Fiber

Sensors I

S4C •

Long-Haul

Systems

S4D •

Visible Light

Communi-

cations I

S4E •

Access

Network

Design and

Operation I

S4F •

Silicon

Photonics I

S4G •

Photonic

Integrated

Processing

Devices

S4H •

Optical

Coherence

Tomography

S4I •

Photovoltaics

S4J •

Mid-IR and

THz

Photonics

S4K •

Best Paper

Award

Competition

II

18:30-21:30 Welcome Reception, New Century Hall, 4F

Agen

da o

f Ses

sion

s



Sunday, 28 October

Room Mingdu 6

3F

Room Mingdu 7

3F

Room Tianhong

4F

Room Tianhe

4F

Room Minghou

4F

Room Mingrui

4F

Room Mingdu 3

3F

Room Mingsi

4F

Room Mingdu 8

3F

Room Mingde

4F

Room Tianren

4F

Exhibition Area


Conference Exhibition

08:30-10:30 Su1A •

Fiber Lasers II

Su1B •

Best Student

Paper

Competition

Track 1

Su1C •

Transmission

Techniques I

Su1D •

Best Student

Paper Award

Competition

Track 2

Su1E •

Best Student

Paper

Competition

Track 3

Su1F •

Best Student

Paper Award

Competition

Track 4

Su1G •

Microwave

Photonic

Communica

-tion

Su1H •

Advanced

Optical

Diagnostic

Technology I

Su1I •

Photovoltaics

& Solar steam

Generation

Su1J •

Software

Defined

Networking I

Su1K •

Best Student

Paper

Competition

Track 5-9

10:30-12:00 Su2A • Poster Session & Coffee Break, Mingyi Hall, 4F

10:30-12:00 Postdeadline Sessions, Mingrui Hall, 4F


13:30-15:30

Su3A •

Novel Fibers &

Applications II

Su3B •

Optical

Fiber

Sensors II

Su3C •

Transmission

Techniques II

Su3D •

DSP

Algorithms

Su3E •

Machine

Learning in

Optical

Networks

Su3F •

Silicon

Photonics II

Su3G •

Optical

Sources and

Applications

Su3H •

Ultrafast &

Nonlinear

Optics II

Su3I •

Quantum

Memory and

Quantum

Entanglement

Su3J •

Software

Defined

Networking

II

Su3K •

Advanced

Optical

Diagnostic

Technology

II


16:00-18:00

Su4A •

Novel Fibers &

Applications III

Su4B •

Distributed

Sensors II

Su4C •

Optical

Transmission

& Optical

Interconnects

Su4D •

Visible Light

Communica-

tions II

Su4E •

Access

Network

Design and

Operation II

Su4F •

Opto-

electronics

Devices I

(Ends at 18:15)

Su4G •

Microwave

Photonic

Devices

Su4H •

Ultrafast &

Nonlinear

Optics III

Su4I •

Quantum Key

Distribution

Su4J •

Silicon

Nitride

Integration

(Ends at 18:15)

Su4K •

Super-

resolution

Optical

Imaging

18:30-21:30 Banquet and Awards Ceremony, New Century Hall, 4F

Agenda of Sessions



Monday, 29 October

Room Mingdu 6

3F

Room Mingdu 7

3F

Room Tianhong

4F

Room Tianhe

4F

Room Minghou

4F

Room Mingrui

4F

Room Mingdu 3

3F

Room Mingsi

4F

Room Mingdu 8

3F

Room Mingde

4F

Exhibition Area


Conference

Exhibition

08:30-10:30

M1A •

Fiber Lasers III

M1B •

Fiber Bragg

Grating

Technologies

M1C •

Optical

Interconnects

& Wireless

Systems

M1D •

Performance

Monitoring &

Metro and

Access

Networks

M1E •

New

Network

Architectures

and

Management

M1F •

Silicon

Photonics III

M1G •

Nonlinear

Photonic

Signal

Processing

M1H •

Ultrafast &

Nonlinear

Optics IV

M1I •

Quantum

Measurement

M1J •

Semiconductor

Lasers


11:00-12:30

M2A •

Novel Fibers

and

Applications

IV

M2B •

Long-Period

Grating

Technologies

M2C •

Short-Reach

Systems

M2D •

Secured

Communication

M2E •

Space Division

Multiplexing

II

(Ends at 12:45)

M2F •

Optical Switch

and Tunable

Devices II

(Ends at 12:45)

M2G •

Frequency

Combs and

Applications

(Ends at 12:45)

M2H •

Advanced

Optical

Diagnostic

Technology

III

M2I •

Single Photon

Technology

and Relevant

New Concepts

M2J •

Optroelectronics

for Free Space

(Ends at 12:45)

12:30-14:00 Lunch Break, Cafe Mediterranean, 3F

14:00-16:00

M3A •

Mode-Locked

Fiber Lasers

M3B •

Novel Fibers

& Sensors

M3C •

OFDM

M3D •

Transmission

Related

Technologies

M3E •

Cross-layer

Optimization

for Core and

Edge

M3F •

Silicon

Photonics IV

M3G •

Microwave

Photonics &

Brillouin

Effect

M3H •

Ultrafast &

Nonlinear

Optics V

M3I •

Quantum

simulation and

machine

learning

M3J •

Biophotonic

Technology


Agen

da o

f Ses

sion

s


ACP 2018 — Saturday, 27 October


08:00-08:30 Opening Ceremony, Grand Dynasty Hall, 4F

08:30-10:00, S1A • Plenary Session I, Grand Dynasty Hall, 4F

Presider: Jian-Jun He; Zhejiang Univ., China

S1A.1 • 08:30 Building quantum machines out of light, Ian Walmsley; Univ. of Oxford, UK. Light has the remarkable capacity to reveal quantum features under ambient conditions, making exploration of the quantum world feasible in the laboratory and field. Further, the availability of high-quality integrated optical components makes it possible to conceive of large-scale quantum states by bringing together many different quantum light sources and manipulating them in a coherent manner and detecting them efficiently. By this route, we can envisage a scalable photonic quantum network that will facilitate the preparation of distributed quantum correlations among many light beams. This will enable a new regime of state complexity to be accessed - one for which it is impossible using classical computers to determine the structure and dynamics of the system. This is a new regime not only for scientific discovery, but also practical purpose: the same complexity of big quantum systems may be harnessed to perform tasks that are impossible using known future information processing technologies. For instance, ideal universal quantum computers may be exponentially more efficiently than classical machines for certain classes of problems, and communications may be completely secure. Photonic quantum machines will open new frontiers in quantum science and technology.

S1A.2 • 09:15 Large Scale Photonic Integrated Circuits, John E Bowers; Univ. of California, Santa Barbara, USA. We review recent advances in heterogeneous silicon photonic integration technology and components and describe progress in silicon photonic integrated circuits (PICs). Techniques for laser integration and the impact of active silicon photonic integrated circuits could have on interconnects, telecommunications and silicon electronics are reviewed. A variety of materials are being heterogeneously integrated, including arsenides for short wavelength lasers, phosphides for infrared lasers, LiNbO3 for nonlinear applications and YIG for isolators and circulators. High capacity transceivers at 100G, 400G and 2.56 Tbit/s will be described along with a roadmap for the future of integrated data communication PICs. Similarly, PICs for LiDAR and gyroscopes and the roadmap for automotive PICs will be described.

10:00-10:30 Coffee Break, Corridor, 4F

10:30-12:00, S2A • Plenary Session II, Grand Dynasty Hall, 4F

Presider: Perry Ping Shum, Nanyang Tech. Univ., Singapore

S2A.1 • 10:30 Impact of quantum dots on advanced photonics: From science to practical implementation, Yasuhiko Arakawa; Univ. of Tokyo, Japan. Since the first proposal of semiconductor quantum dots in 1982 by Arakawa et al., the quantum dots have been intensively studied for both fundamental solid-state physics and advanced device applications. Fully quantum mechanical confinement of electrons has enabled the realization of high performance quantum lasers, high-sensitivity quantum dot infrared detectors, and quantum information devices such as single photon sources. Quantum dots can be also applied to solar cells with a forecasted conversion efficiency over 75% for the future sustain- able renewable energy system. Moreover, embedding a single quantum dot inside a photonic nanocavity provides a fascinating platform for studying solid-state cavity quantum electronics (cavity-QED). In this presentation, we overview recent progress in quantum dot photonics, including practical realization of quantum dot lasers and single photon sources operating above room temperature. In particular, impact of the quantum dot lasers on silicon photonics is emphasized. Moreover, advances in quantum dot cavity-QED and future prospects of the quantum dot photonics are also discussed.

S2A.2 • 11:15 Cognitive Optical Network, Vincent W. S. Chan; Massachusetts Inst. of Technology, USA. Future optical networks will have 103-4 increase in rates and highly granular traffic due to large transactions. Cognitive techniques will provide intelligent, agile and automated fast scheduling of resources, topology changes and agile adaptations for congestion control, load balancing, reconfiguration, restoration and reconstitution involving all layers.


Plenary

Plenary

Plenary

Plenary



Mingdu Hall 6, Track 1

S3A.1 • 13:30 Status of high speed plastic optical fiber and network, Yasuhiro Koike1； 1Faculty of Science and Technology, Keio Univ., Keio Photonics Research Inst., Japan. With the demand of ultra-high bitrate data-transmission in new generation IoT society, the status of Graded-Index Plastic Optical Fib- er (GI POF) as “Capillary of Light” in the short distance communication is descry- bed.


S3B.1 • 13:30 Fiber-optic forward Brillouin scattering properties: experimental investigation and sensing application, Neisei Hayashi1, Yosuke Mizuno2, Kentaro Nakamura2, Sze Set1 and Shinji Yamashita1; 1The Univ. of Tokyo, Japan; 2Tokyo Inst. of Technology, Japan. We present the properties of Forward Brillouin scattering in various optical fibers, and then discribe the distributed temperature/acoustic impeda- nce sensing.

S3B.2 • 14:00 Slope-assisted Brillouin optical correlation- domain reflectometry: from funda- mentals to applications, Heeyoung Lee1, Yosuke Mizuno1 and Kentaro Nakamura1; 1Tokyo Inst. of Technology, Japan. To enable high-speed distributed strain/temperature measurement along optical fibers, we have developed slope-assisted Brillo- uin optical correlation-domain reflectometry (SA-BOCDR). In this presentation, we report our recent studies on SA-BOC- DR and introduce some on-going experiments.

Tianhong Hall, Track 2

S3C.1 • 13:30 Space-Division Multiplexing, Dr. Roland Ryf1; 1Nokia Bell Labs, Holmdel, USA. Spa- ce-division multiplexing addresses the problem of providing cost effective high capacity optical links and networks with capacity well beyond the limit of a single-mode fiber. In this tutorial I will address possible network architectures based on multimode, multicore, or even multiple single-mode fibers, and review new switching and amplifying components that can act on multiple parallel spatial channels.

Tianhe Hall, Track 2

S3D.1 • 13:30 Optics and Photonics for Data Centers, Chongjin Xie; Alibaba Group, USA Fast growing traffic in data centers puts new requirements and challenges on optical interconnect technologies. This tutorial covers the optics and photonics technologies for data center interconnects, including both intra- and inter-data center interconnects.

Minghou Hall, Track 3

S3E.1 • 13:30 Consolidating Virtual Data Centers with Negative Load Correlations to Alleviate Performance Degradation Due to Load Burstiness, Gangxiang Shen1, Chao Guo1, Yonghu Yan2, Wei Chen2 and Sanjay Bose3; 1Soochow Univ., China; 2Jiangsu Hengtong Fiber Science and Technology Cor- poration, China; 3IIT Guwahati, India. We propose embedding VDCs whose loads are negatively correlated, onto common physical servers and links. An ILP model and a load-correlation-based heuristic algorithm are developed to simulate and study the effectiveness of this approach.

S3E.2 • 14:00 Service Migration Strategies for Ultra -low Latency Services in Edge Com- puting, Jun Li1 and Jiajia Chen1; 1KTH Royal Inst. of Technology, Sweden. In this talk, we investigate the service migration in fog computing enabled radio access networks and design three migration strategies based on the existing handover procedures to support real-time services.


13:30-15:30 S3A • Novel Fibers & Applications I Presider: Yunjiang Rao; UESTC, China.

13:30-15:30 S3B • Distributed Sensors I Presider: Zuyuan He; Shanghai Jiao Tong Univ., China.

13:30-15:30 S3C • Space-Division Multiplexing I Presider: Chao Lu; Hong Kong Poly. Univ., China.

13:30-15:30 S3D • Data Center Networks Presider: Xiang Liu; Huawei Technologies, USA.

13:30-15:30 S3E • Optics for Intra-datacenter, Edge and Cloud Applications Presider: Jelena Pesic; Nokia Bell Labs, France.

Tutorial

Invited

Tutorial Invited Tutorial

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Mingrui Hall, Track 4

S3F.1 • 13:30 Wavelength selective switches and photonic cross-connects for future network switching, David Neilson1; 1Nokia Bell Labs, USA. Wavelength switching is a critical function in today’s flexible optical networks. This tutorial will cover current and future architecture and technology of RO- ADMs and their subsystems.


S3G.1 • 13:30 Advanced optical signal processing, nonlinear light sources and high- dimensional quantum communications, Leif Katsuo Oxenløwe1, 1SPOC Centre, DTU Fotonik, Tech- nical Univ. of Denmark, Denmark. This talk reviews our recent work in Research Centre SPOC (Silicon-Ph- otonics-for-Optical-Communications) on har-nesssing optical nonlinear- rities for ultra-broadband advanced signal processing and for sources of broadband light, and on high-dimensional quantum communications.

Mingsi Hall, Track 6

S3H.1 • 13:30 Single-photon frequency conversion for quantum interface, Xian- feng Chen1; 1State Key Laboratory of Advanced Optical Communi- cation Systems and Networks, SJTU, China. Single-photon frequency conversion for quantum interface plays an important role in quantum communications and networks. In this talk, I will present our recent experiments about single-photon frequency conversion based on quadratic nonlinear processes in which three quantum interfaces via single-photon frequency conversion are experimentally realized.

S3H.2 • 14:00 Single-nanowire ultrafast optical modulation and correlation, Limin Tong1; 1State Key Laboratory of Modern Optical Instrumentation, College of Optical Science and Engineering, Zhejiang Univ., China. Using semiconductor nanowires as nonlinear optical waveguides, we show ultrafast all optical modulation with single nanowires. Relying on transvers second harmonic generation, we also show ultrafast optical correlation with single nanowires.


S3I.1 • 13:30 The study of photonic device- Form excitionic to non-excitonic device, Ming-Fai Lo1, Chun-Sing Lee2; 1Center of Super-Diamond and Advanced Films (COSDAF) and City Univ. of Hong Kong, China; 2City Univ. of Hong Kong Shenzhen Research Inst., China. In this talk, charge transfer process of conventi- onnal excitonic organic devices and its applications will be presented. New findings on non-excitonic devices based on organic and perovskite materials will also be presented.

S3I.2 • 14:00 Direct bandgap Ge by design for a CMOS compatible light source, Linding Yuan1, Shu-Shen Li1 and Jun-Wei Luo1; 1Inst. of Semicondu- ctors, Chinese Academy of Sci., China. Here, we propose insert external atoms into interstitial sites of Ge to induce an effective tensile uniaxial strain on Ge, a new path- way toward CMOS-compatible light- emitting direct bandgap Ge.

Mingde Hall, Track 4

S3J.1 • 13:30 Broadband Light Sources Based On Highly-Nonlinear AlGaAs-On- Insulator Waveguide Devices, Minhao Pu1, Hao Hu1, Pengyu Guan1, Elizaveta Semenova1, Leif Katsuo Øxenløwe1 and Kresten Yvind1; 1Technical Univ. of Denmark, Denmark. We discuss broadband light generation based on Kerr nonlinearity in the highly-nonlinear Alga- e’s-on-insulator waveguide platform. We review the recent demonstrations for utilizing of such light sources in telecommunication systems.

S3J.2 • 14:00 InP integrated optical frequency comb generator based on cascaded modulators, Giampiero Contestabile1, Nicola Andriolli1; 1Scuola Superiore Sant'Anna, Italy. An InP integrated optical frequency comb generator is presented, composed of a DBR laser and a cascade of intensity and phase modulators. 28 spectral lines have been demonstrated at a repetition frequency of 5 GHz.

Tianren Hall, Joint

S3K.1 • 13:30 All-fibre acoustic sensor for the sound source localization, Ran Gao1; 1State Key Laboratory of Transducer Tech., Inst. of Electro- nics, Chinese Academy of Sciences, China. An all-fibre vector acoustic sensor based on crossed microfiber Co2+-doped Bragg gratings has been proposed and experimentally demonstrated that enables the two-dimension sound source localization with a size less than 1.5mm.

S3K.2 • 13:45 Controllable transverse mode Brillouin laser with an all fiber cavity, Jiulin Gan1, Xiaobo Heng1, Zhishen Zhang1, Zhongmin Yang1; 1South China Univ. of Tech., China. An all-fiber Brillouin laser with switchable transverse mode has been proposed and demon-strated. The orbital angular momentum mode with switchable topological charge is also realized.

S3K.3 • 14:00 200-Gb/s PAM4 Transmission over 80km SSMF with Kramers- Kronig Receiver, Sen Zhang1, Tianjian Zuo1, Lei Liu1 and Qiwen Zhong1, 1Huawei Technologies Co., Ltd, China. Using a single intensity- modulated MZM, a single DAC and a single PD, we demonstrate 200-Gb/s PAM4 over 80km SSMF based on Kramers-Kronig receiver. Maximum capability up to 260-Gb/s is also demonstrated for back-to-back transmission.


Invited

13:30-15:30 S3F • Optical Switch and Tunable Devices I Presider: Yikai Su; Shanghai Jiao Tong Univ., China.

13:30-15:30 S3G • Optical Signal Processing Presider: Peucheret Christophe; Univ. of Rennes, France

13:30-15:30 S3H • Ultrafast & Nonlinear Optics I Presider: Mark Pelusi; The Univ. of Sydney, Australia.

13:30-15:30 S3I • Novel light sources & Photonic Devices Presider: David Ginger; Univ. of Washington, USA.

13:30-15:30 S3J • III-V Optoelectronics Presider: Laurent Vivien; CNSNT, CNRS, Univ. Paris Sud, Univ. Paris Saclay, France

Tutorial Tutorial

13:30-15:30 S3K • Best Paper Award Competition Presider: Daoxin Dai; Zhejiang Univ., China.

Invited

Invited Invited

Invited


Invited



S3A.2 • 14:15 3D Printing Ribs, Fibres and Things, John Canning1, Kevin Cook2, Padraic Flanagan2,3, Yanhua Luo4 and Gang-Ding Peng4; 1Univ. of Tech., Sydney, Australia; 2UTS, Australia; 3Trinity College Dublin, Ireland; 4UNSW, Australia. Direct 3D printing of transmission and optical technologies such as optical fibres and waveguides is revolutionising research, enabling accessible and affordable capability to a much wider audience space.

S3A.3 • 14:45 Towards a perfect hollow-core optical fiber, Yingying Wang1; 1Beijing Univ. of Technology, China. We review our recent progress on understanding, design and fabrication of hollow-core negativecurvat- ure fiber with ultralow loss, low bending loss, high mode quality and high damage threshold.


S3B.3 • 14:30 A Long-range Fiber-optic Raman Distri- buted Temperature Sensor Based on Dual-source Scheme and RZ Simplex Coding, Gaoyu Dai1, Xinyu Fan1 and Zuyuan He1; 1 Shanghai Jiao Tong Univ., China. We proposed a cost-effective long-range RDTS based on dual-source configuration and RZ Simplex code over 50-km optical fiber. The spatial and temperature resolution are 10m and 1.8℃, respectively.

S3B.4 • 14:45 Recovery of double peak-induced error in BOTDA sensors, Xizi Sun1, Xiaobin Hong1, Sheng Wang1, Xia Gao1 and Jian Wu1; 1BUPT, China. An optimized fitting function is studied to restore the BFS in BOTDA system when double-peak Bri- llouin gain spectrum appears. Based on this technique, the frequency accuracy and spatial position accuracy is improved greatly around hotspot.


S3C.2 • 14:15 Long-haul Dense SDM Transmission Over 12-core x 3-mode Fiber, Kohki Shibahara1, Takayuki Mizuno1, and Yutaka Miyamoto1; 1NTT Network Innovation Laboratories, NTT Corporation, 1-1 Hikari- no-oka, Yokosuka, Kanagawa, 239-0847 Japan. Strategies for mitigating the impact of mode-dispersion and mode-dependent loss in few-mode fiber links are discussed. We also present mode-dispersion-unman- aged long-haul dense SDM transmission results achieved by combining cyclic mode permutation and inter-modal interference cancellation.

S3C.3 • 14:45 Direct detection of 1.176-Tb/s (168- Gb/s × 7) Nyquist-PAM-8 over 7-core fiber using digital pre-distortion, Chao Yang1, Ming Luo1 and Xiang Li1, 1Wuhan Research Inst. of Posts and Telecom- munications, China. An IM/DD 1.176-Tb/s (168-Gb/s×7) PAM-8 signal transmission is experimentally demonstrated over a 10-m 7-core fiber with residual CD up to 64-ps/nm. The experimental results indicate that the MCFs are well-suited for the IM/DD system


S3D.2 • 14:15 Optics in Smart Data Center Networking, Yiran Li1, Da Wei1, Xiaoqi Chen2, Xin Jin3, Lei Xu4, Wei Xu1and Jennifer Rexford2; 1Tsinghua Univ., China; 2Princeton Univ., USA; 3Johns Hopkins, USA; 4Sodero Networks, USA. With massive scale and complications in data centers, we need to rethink the interface and cross-layer optimizations among software and different networking layers, including the optical and routing layers. We introduce our experience.

S3D.3 • 14:45 DSP Aided High Speed Direct Detection System for DCN and DCI Application, Qiang Zhang1, 1Huawei Technologies Co LTD, China. With the data-flow explosion, high speed and low cost optimal modules demand are increasing greatly in the past several years. This paper reviews our recent works on direct detection system for DCN and DCI application.


S3E.3 • 14:30 A Comparison of Statistical and Machine-Learning based Bandwidth Prediction in Supporting Low-Latency Applications, Elaine Wong1, Lihua Ruan1 and Imali Dias1; 1Univ. of Melbourne, Australia. Through performance measures such as computational complexity, bandwidth prediction accuracy, average upstream latency, and packet drop ratio, we compare conventional predictive DBA schemes and our proposed machine- learning based predictive DBA scheme to support low-latency applications.


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S3F.2 • 14:15 Large-Scale Silicon Photonic Swi- tches, Ming Wu1 and Tae Joon Seok1; 1Univ. of California, Berkeley, USA. Silicon photonic MEMS offers unique advantage for reconfigurable circuits with low loss and low power consumption. The switching element with MEMS act- uated vertical adiabatic couplers has nearly zero loss in the BAR state, enable the switch to scale favorably in crossbar geometry without cum- ulative loss. In this talk, we review the current state of the art of silicon photonic switches, with emphasis on silicon photonic MEMS switches.

S3F.3 • 14:45 High performance thermo-optic tunable narrow-band filter using asymmetric sidewall gratings on suspended silicon ridge waveguide, Kai Chen1, Fei Duan1 and Yonglin Yu1; 1Huazhong Univ. of Science and Technology, China. A high performance silicon thermally tunable narrow-band grating filter is proposed and experimentally demonstrated by using undercut structure and anti-symmetric sidewall Bragg gratings on ridge waveguide.


S3G.2 • 14:15 On-chip devices for optical and microwave signal processing, Lawrence Chen1, 1McGill Univ., Canada. We describe on-chip devices in silicon photonics for optical and microwave signal processing. We describe a mode selective nonlinear device, an integrated nonlinear optical loop mirror, a programmable comb filter, and a cascaded intensity modulator.

S3G.3 • 14:45 Full-Field Broadband Invisibility Cloaking by Frequency-Domain Energy Redistribution, Luis Rom- ero Cortés1, Mohamed Seghilani1, Reza Maram1 and José Azaña1, 1INRS-EMT, Canada. We review recent research work on the proposal and experimental demonstration of the first full-field (amplitude-and phase-preserving) broadband invisibility-cloaking principle. This is accomplished by reversible transformations of the illumination wave’s frequency spectrum.


S3H.3 • 14:30 Hyperbolic-Sine Breathers in Non- local Materials, Zhenjun Yang1, Limin Song1, Xingliang Li1, Shumin Zhang1; 1Hebei Normal Univ., China. The evolution of hyperbolic-sine beams in nonlocal materials is investigated. The evolution properties are decided by the beam energy and the parameters of hyperbolic-sine function and it can be regarded as a generalized breather.

S3H.4 • 14:45 Demonstration of optical channel de-aggregation for 8QAM Signal using FWM in HNLF, Hong Liu1, Hongxiang Wang1, Meitong Yu1, Yuefeng Ji1; 1BUPT, China. An optical channel de-aggregation for 8QAM signal is designed to recover original aggregated signals by four-wave mixing (FWM). The result shows that the de-aggregated signals have better BER performance than 8QAM signal.


S3I.3 • 14:30 Upconversion luminescence in Thulium-Doped NaYF4 Nanoparti- cles Excited by a 980 nm Laser, Yadong Deng1, Xin Su2, Zexuan Qiang1, Lijuan She1, Yan Zhou1, Renren Deng2, Daru Chen1 and Zhangwei Yu1; 1Zhejiang Normal Univ., China; 2Zhejiang Univ., China. Upconversion luminescence at ~800 nm based on Thulium-doped NaYF4 nanoparticles excited by a 980 nm laser has been experimenttally demonstrated. Under different concentrations, the fluorescence power is proportional to the pump power.

S3I.4 • 14:45 Optical Rectification Photo- detectors, Jean-Michel Nunzi1 and Somayeh M.A. Mirzaee1; 1Queen's Univ., Canada. We review the optical rectification versus nonlinear optical effects which may happen when building a rectenna based p- hotovoltaic device.


S3J.3 • 14:30 High confinement InP photonic membrane, Yuqing Jiao1; 1Eind- hoven Univ. of Tech., Netherlands. Integrated nano-photonics on an InP membrane has the promise of high-performance intrinsic amplifiers and lasers integrated with high- density passive circuits. In this talk we review our recent achievement in this field.

Tianren Hall, Joint

S3K.4 • 14:15 Impact of Temperature on Prop- agation Time and Inter-Core Skew in a 19-Core Fiber, Ben Puttnam1, Ruben Luis1, Georg Rademacher2, Rasmus Jones3, Yoshinari Awaji1 and Naoya Wada1; 1NICT, Japan;

2National Inst. of Information and Communications Tech., Japan;

3DTU, Denmark. We measure the change in propagation delay and inter-core skew in response to temperature variation in a 19-core MCF and reference SMF spans, observing over 3 orders of magnitude smaller skew variations in MCF.

S3K.5 • 14:30 Rate-Adaptive Coded Modulation with Geometrically-shaped Const- ellations, Bin Chen1, Yi Lei2, Domanic Lavery3, Chigo Okonkwo1 and Alex Alvarado1, 1Eindhoven Univ. of Tech., Netherlands; 2BUPT, China; 3Univ. College London, UK. Information-theoretic metrics are used to design adaptive coded modulation with geometri-cally- shaped constellations for soft- decision and hard-decision FEC. Numerical results show that an 8% reach extension can be achieved for flexible data rate and transmission distance.

S3K.6 • 14:45 All-Optical Wavelength Conversi- on of PAM-4 Signal using Photon- ic Integrated Turbo-Switch, Adnan Hajomer1, Xulein Yang1, Weisheng Hu1, N. Andriolli2, M. Presi2, C. Porzi2, and G. Contestabile2; 1SJTU, China; 2Scuola Superiore Sant’Anna, Italy. We demonstrate an on-chip all-optical wavelength conversion (AOWC) of 20 Gbit/s 4-level pulse-amplitude modulation (PAM- 4) signal using integrated SOA-based turboswitch, with ~ 2 dB power penalty at symbol error rate (SER) of 1×10^{-3}


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S3A.4 • 15:15 Spun High Birefringence Bismuth/ Erbi- um Co-Doped Photonic Crystal Fibre with Broadband Polarized Emission, Yanhua Luo1, Yushi Chu1, Kevin Cook2, Ghazal Tafti1, Shuai Wang1, Wenyu Wang1, Yuan Tian1, John Canning2 and Gang-Ding Peng1; 1The Univ. of New South Wales, Australia; 2Univ. of Technology, Sydney, Australia. Spun Hi-Bi bismuth/erbium co- doped photonic optical fibre (SHB-BEPCF) has been fabricated using preform stac- king and self-pressurization. Results demonstrate broadband and partially elliptical polarized NIR emission under un-polarized 830nm pumping spanning 520nm centred at 1430nm.


S3B.5 • 15:00 Discriminative Measurement of Temp- erature and Strain Using Stimulated Brillouin Scattering and Guided Aco- ustic-Wave Brillouin Scattering, Yuanxiu Fu1, Xinyu Fan1, Bin Wang1 and Zuyuan He1; 1Shanghai Jiao Tong Univ., China. We propose a method to implement discriminative measurement of temperature and strain using stimulated Brillouin scattering (SBS) and guided acoustic-wave Brillouin scattering (GAWBS). A measurement accuracy of 0.49 °C and 14.9 με has been achieved.

S3B.6 • 15:15 Chaotic Brillouin optical correlation domain analysis system with suppressed noise-background, Yahui Wang1, Ming- jiang Zhang1, Jianzhong Zhang1, Lijun Qiao1, Qian Zhang1 and Yuncai Wang1; 1Taiyuan Univ. of Technology, China. Chaotic Brillouin sensing technology is a competitive method that enables both high spatial resolution and large measurement range in distributed fiber sensing system. Recent progresses in chaotic Bril- louin optical correlation domain analysis system are reported.


S3C.4 • 15:00 Performance analysis of LDPC in spatially multiplexed MIMO UVC system, Yong Zuo1, Lingchao Meng1, Feiyu Li1, Jian Wu1, Jinnan Zhang1 and Junyi Zhang2, 1State Key Laboratory of Information Photonics and Optical Communications, China; 2 BUPT, China. We present a loop-removing algorithm for low-density-parity-check-code (LDPC) and a model for spatially multiplexed multiple-input- multiple-output (MIMO) ultraviolet communication (UVC). The performance of the LDPC in 2×2 UVC system is demonstrated with simulation and experimental results.

S3C.5 • 15:15 Experimental Demonstration of 7-mode Weakly-coupled MDM Transmission over 200-m MMF, Chunyan Du1, Juhao Li1, Zhongying Wu1, Mingqing Zuo1, Ping Meng1, Haotian Cao1, Yongqi He1 and Zhangyuan Chen1, 1Peking Univ., China. Weakly-coupled MDM transmission sup- orting 7 independent modes is experimentally demonstrated over 200-m conventional multimode fiber (MMF), enabled by cascaded mode-selective couplers and wavelength interleaving schemes. 10-Gb/s OOK signals and simple direct detection are employed.


S3D.4 • 15:15 Comparison of Coherent and Direct Detection Schemes for 400G Data Center Interconnection and Metro Networks, Mingxuan Jiang1, Yixiao Zhu1 and Fan Zhang1, 1Peking Univ., China. We investigate the influence of system parameters on the performance of 56G baud PDM-16-QAM coherent and Stokes Kram- ers-Kronig direct detection schemes for 400G data center interconnection and Me- tro Networks.


S3E.4 • 15:00 Dog in Fog: Knowledge-aware Virtual Network Embedding in Cloud-and Fog-mixed Optical DCNs, Cunqian Yu1, Rongxi He1, Bin Lin1 and Jingyu Li1; 1Dalian Maritime Univ., China. We regard user data containers as pet dogs and design a knowledge-aware virtual network embedding orchestration based on QoS requirement features. Then we formulate this resource allocation problem and propose a fast and efficient algorithm.

S3E.5 • 15:15 Lightweight Edge Computing Network Architecture and Network Performance Evaluation, Feng Peng1, Guochu Shou1, Yihong Hu1 and Yaqiong Liu1; 1BUPT, China. This paper firstly proposes an architecture and networking scheme for edge computing network based on functionally converged and lightweight devices. We then experimentally evaluate the network performance and verify the feasibility.

15:30-16:00 Coffee Break, Corridor, 3F, 4F


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S3F.4 • 15:00 Tunable Optical True Time Delay Line Based on Ring Array, Zhaowei Ke1, Renyou Ge1 and Xinlun Cai1; 1Sun Yat-sen Univ., China. An integrated tunable optical true time delay line based on ring array is designed and fabricated on SOI platform. Continuous delay up to 4.3ps and 8 delays from 0 to 108.8 ps can be generated.

S3F.5 • 15:15 A Tunable True Time Delay Line Based on Coupled All-pass Dou- ble-ring Resonator, Xiaowen Gu1, Fengjie Zhou1, Bin Niu1, Guang Qian1 and Yuechan Kong1; 1Nanjing Electronic Devices Inst., China. A tunable true time delay line based on coupled all-pass double-ring resonator is proposed and demonstrated with typical time delay from 40 to 440 ps, which exhibits the potential application in a phased array antenna.


S3G.4 • 15:15 All-Optical Physical-Layer Netw- ork Coding based on Four Wave Mixing in Semiconductor Optical Amplifier, Yueying Zhan1, Yuebing Zhu2 and Shaojun Wu1, 1Key Laboratory of Space Utilization, Technology and Engineering Cent- er for Space Utilization, China; 2School of Computer and Comm- unication Engineering, Univ. of Sci- ence and Technology Beijing, China. An all-optical Physical-Layer Netw- ork Coding (PNC) design for free- space satellite optical communications using FWM in SOA is proposed, and the BER performances of a 20Gbit/s QPSK modulated PNC two-way relay network is evaluated and discussed.


S3H.5 • 15:00 Reversible light-by-light control via giant ac Stark effect in a strongly coupled light-matter system, Dmitry Panna1, Nadav Landau1, Liron Gantz1, Leonid Rybak1, Shai Tsesses, Guy Adler, Sebastian Brodbeck2, Sven Höfling2, Christian Schneider2, Alex Hayat1; 1Technion, Israel; 2Universität Würzburg, Germany. We demonstrate experimentally reversible control of photon energy by photon via a giant ac Stark effect in specially designed strongly-coupled microcavities. We observe polariton energy shifts larger than Rabi energy, described by our non-perturbative modelling.

S3H.6 • 15:15 Greatly enhanced Kerr nonlinearity in hyperbolic slot waveguides, Guangyuan Li1, Yuanfu Lu1, Wenquan Liu1, Guohua Jiao1 and Jiancheng Lv1; 1Shenzhen Inst.s of Advanced Technology, Chinese Academy of Sciences, China. Waveguides made of hyperbolic metamaterials have unique properties. Here we show that hyperbolic slot waveguides can have greatly enhanced Kerr nonlinearity at shorter device lengths and lower pump power compared with the metallic slot waveguides.


S3I.5 • 15:00 Randomized Glass-Polymer Hybr- id Metamaterial for Day-time Rad- iative Cooling, Yaoguang Ma1; 1Zhejiang Univ., China. Here we demonstrate a randomized, glass- polymer hybrid optical metamaterial with a tailored spectroscopic response that spans nearly two octaves of wavelengths, from 0.3 to 25 um, for efficient day- and nighttime radiative cooling.


S3J.4 • 15:00 Widely Tunable Single-mode Hyb- rid Square/Rhombus-Rectan-gular Lasers, You-Zeng Hao1, Yong-Zhen Huang1, Fu-Li Wang1, Hai-Zhong Weng1, Yue-De Yangv and Jin-Long Xiao1; 1Inst. of Semiconductors, Chinese Academy of Sciences, China. Hybrid square/ rhombus- rectangular lasers are proposed and demonstrated. Sing- le mode operation with a continuous wavelength tunable range of 25nm is realized with side mode suppression ratio (SMSR) > 30dB and the highest SMSR of 44dB.

S3J.5 • 15:15 1.34 μm InGaAsP/InP MQW Supe- rluminescent Diodes with J-shaped Ridge Waveguide, Long Wang1, Qi Wang1, Hao Liu1, Guang Yang1, Kai Liu1 and Xiaomin Ren1; 1Beijing Univ. of Posts and Teleco- mmunications, China. We have fabricated InGaAsP/InP multiple quantum wells (MQWs) superluminescent diodes (SLDs) utilizing J-shaped ridge waveguide and obtained 27.1 nm spectral bandwidth (centered at 1.34 μm) with 37.6 mW output power under room temperature CW operation.

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S3K.7 • 15:00 Real-time FPGA Demonstration of Low-latency Adaptive Fronthaul Compression based on Adaptive Differential Pulse Code Modul- ation, Paikun Zhu1, Yuki Yoshida2 and Ken-Ichi Kitayama1,2; 1GPI, Japan; 2NICT, Japan. We design and implement a low-latency fronthaul compression technique based on ADPCM on FPGA. Real- time experimental results show lower- than-100ns latency of compression plus decompression with 15-to-6bit compression, and average EVM of 1%~1.1% is achieved.

S3K.8 • 15:15 High speed WDM-PON technology for 5G fronthaul network, Dezhi Zhang1, Zhe Du1, Ming Jiang1 and Jun Zhang2; 1Shanghai Rese- arch Inst. of China Telecom Corpor- ation Limited, China; 2Shanghai Telecom of China Telecom Corpor- ation Limited, China. This paper introduces and analyzes the technical scheme and application of the 5G fronthaul scenario and deployment mode and the high speed WDM-PON technology in the cent- ralized deployment mode.






S4A.1 • 16:00 Wavelength-swept source around 2-um window for ultrafast imaging applications, Kenneth Kin-Yip Wong1 and Sisi Tan1; 1The Univ. of Hong Kong, Hong Kong. Wavelength-swept source gains its popularity in a wide range of biomedical applications, particularly in the emerging window around 2um. We here demonstrate various swept sources around that window for ultrafast imaging such as time-stretch microscopy.

S4A.2 • 16:30 Random fiber lasers for speckle-free imaging, Yunjiang Rao1; 1UESTC, China. Multimode random fiber laser is demonstrated for speckle-free imaging for the first time, representing a revolutionary progress compared with conventional low- coherence light sources, as it can provide a platform to develop powerful low- coherence light sources.


S4B.1 • 16:00 High-resolution spectroscopy based on dual-comb interferometer, Xinyu Fan1, Shuai Wang1 and Zuyuan He1; 1Shanghai Jiao Tong Univ., China. In this invited talk, high-resolution spectroscopy systems based on dual-comb interferometer are introduced. With well-established mutual coherence, we improve the dual-comb system in spectral resolution, frequency agility, measurement speed and sensitivity jointly.

S4B.2 • 16:30 Opto-electrochemical sensing devices based on fiber probes coated with boron-doped diamond films, Robert Bogdanowicz1; 1Gdansk Univ. of Techno- logy, Poland. The paper presents the overview of the fabrication of optoelect- rochemical sensing devices utilizing optical fibres coated by doped diamond films. The possible combined electrochemical and LPG-based measurements are discussed in this work.


S4C.1 • 16:00 On the prospects of multi-band WDM transmission, Robert Emmerich1, Antonio Napoli2, Alessio Ferrari3, Vittorio Curri3, Nelson Costa4, Joao Pedro4 and Johannes Fischer5, 1Fraunhofer, Germany; 2Coriant R&D, Germany; 3Politecnico di Torino, Italy; 4Coriant PT, Portugal; 5Fraunhofer HHI, Germany. Optical multi-band communication systems use multiple optical bands for transmission. This contribution dis- cusses the prospects of multi-band communication systems and possible upgrade paths for their deployment. A simple estimation of expected total capacity is provided.

S4C.2 • 16:30 Historical Evolution of High-Capacity Long-Haul Line Systems, Historical Evolution of High-Capacity Long-Haul Line Systems, Rene-Jean Essiambre1, 1Nokia Bell Labs, United States. An overview of the historical evolution of wired transmission systems will be presented with emphasis on the physical aspects that g324uided the choice of the transmission media over the last century.


S4D.1 • 16:00 Recent Progress on Laser Diode Based White Light Communication, Gong-Ru Lin; National Taiwan Univ. Blue/violet laser diode based white light communication is an emerging topic in the area of lighting fidelity. Recent progress on the improve- ement of CCT and CRI the BLD/VLD based white-lighting source, and the deliverable VLC data rate of the BLD/VLD before and after color conversion will be discussed in this talk.

S4D.2 • 16:30 High-speed visible light communications: challenges and prospects, Nan Chi; Fudan Univ., China. We summarize the latest advances in visible light communications, including high-speed VLC system pre-equalization, post-equalization techniques, single-carrier CAP modulation formats, single-carrier Nyquist pulse shaping and DMT bit loading, spatial multiplexing and wavelength multiplexing. These technologies can support up to G bit/s capacity and 100 meters of free space transmission.


S4E.1 • 16:00 Virtualising the central office from the network functions down to the optical layer, Marco Ruffini1; 1 TCD, Ireland. This tutorial describes the latest network virtualization trends that have led to the cloudification of the central office, analyzing the effects on future optical network architectures and highlighting some of the upcoming challenges.


16:00-18:00 S4A • Fiber Lasers I Presider: Mateusz Smietana; Warsaw Univ. of Technology, Poland.

16:00-18:00 S4B • Optical Fiber Sensors I Presider: Yiping Wang; Shenzhen Univ., China.

16:00-18:00 S4C • Long-Haul Systems Presider: Periklis Petropoulos, Univ. of Southampton, UK.

16:00-18:00 S4D • Visible Light Communication I Presider: Cristian Antonelli; Univ. of L'Aquila, Italy.

16:00-18:00 S4E • Access Network Design and Operation I Presider: Marija Furdek, KTH Royal Inst. of Tech., Sweden.

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S4F.1 • 16:00 A 300-mm-wafer silicon photonics technology for energy-efficient and advanced information systems, Koji Yamada1, Tsuyoshi Horikawa1, Makoto Okano1, Guangwei Cong1, Yuriko Maegami1, Noritsu Yamamoto1, Keijiro Suzuki1, Satoshi Suda1, Ryotaro Konoike1, Hiroyuki Matsuura1, Morifumi Ohno1, Kazuhiro Ikeda1, Hitoshi Kawashima1, Shu Namiki1 and Masahiko Mori1; 1National Inst. of Advanced Industrial Science and Technology, Japan. State-of-the-art 300-mm- wafer-based silicon photonics technology features superior fabrication accuracy, uniformity, and reprodu- cibility. Using this technology, we have developed various high- performance functional photonic devices, which will be key elements in the energy-efficient and advanced information systems.

S4F.2 • 16:30 High Performance Silicon-Based Photodetectors and Imagers, Yang Xu1; 1Zhejiang Univ., China. To solve the typical problems of silicon-based invisible photodetectors and imaging systems, our work focused on the ultraviolet (UV), infrared (IR) photodetection and their image integration systems.


S4G.1 • 16:00 Reconfigurable on-chip mode multiplexed system, Yu Yu1; 1Wuh- an National Lab for Optoelectronics, Huazhong Univ. of Science and Technology, China. Mode-division multiplexing has attracted continuous attentions since it further increases the capacity of a single- wavelength link. We report our recent results on chip-scale mode multiplexed system, which consists of various key components for mode manipulation.

S4G.2 • 16:30 3D Hybrid Integration for High Performance Photonic Integrated Circuits, Jonathan Klamkin1; 1Univ. of California Santa Barbara, USA. Hybrid integration of high performance active photonic devices is critical for microwave photonics. A 3D hybrid approach will be descry- ibed for integration of lasers on silicon photonics and silicon nitride platforms.


S4H.1 • 16:00 Multi-channel OCT angiography and its application, Peng Li1; 1Zhejiang Univ., China. We present a label-free Multi-channel OCT angiography, including motioncon- trast mechanism, parallel acquisi- tion of independent mass samples, high-sensitive flow classifycation, and its applications in brain study.

S4H.2 • 16:30 Miniaturised fibre optic probes: Bringing optical coherence tomography to new medical applications, Robert McLaughlin1; 1The Univ. of Adelaide, Australia. We describe development and use of imaging needles, miniaturized optical coherence tomography and fluorescence probes encased in a hypodermic needle, capable of imaging deep within the body. We present results from human and animal studies.


S4I.1 • 16:00 Vertically Oriented 2D Perovs- kites and Solar Cell with Improv- ing Efficiency, Gang Wu1, Xiaomei Lian1, Xinqian Zhang1 and Hongz- heng Chen1; 1Zhejiang Univ., China. A new route was demonstrated to fabricate 2D layered perovskites with preferential vertical-orientation on the ITO/PEDOT: PSS substrate with the aid of ammonium thioc- yanate (NH4SCN) additive mixed in the precursor solution.

S4I.2 • 16:30 Defect Control to Reach Solar Cell Efficiency Limits with Hybrid Perovskites, David Ginger1; 1Univ. of Washington, United States. We study surface and bulk defect formation and passivation in perovskite photovoltaics. We show that chemical passivation can yield films with >90% PL internal quantum efficiency and quasi-Fermi level splittings approaching the Sho- ckley-Queisser limit.


S4J.1 • 16:00 2D Materials based Mid-infrared Optoelectronics, Qijie Wang1 and Xuechao Yu1; 1Nanyang Tech. Univ., Singapore. In this talk, I am going to present our research in applying 2D materials for applications in the mid-infrared regime, particularly, a room temperature broadband PtSe2-based photodetector and a high responsivity hybrid mid- infrared photodetector.

S4J.2 • 16:30 High-performance THz devices based on metasurfaces, Lei Zhou1; 1Fudan Univ., China. Metasurfaces, ultrathin metamaterials composed by array of planar “meta-atoms” with pre-designed electromagnetic (EM) properties, have attracted extensive attention recently. Here, I will summarize our recent efforts on making high-performance THz devices based on metasurfaces.

Tianren Hall, Joint

S4K.1 • 16:00 Uni-Traveling Carrier Photodiode for High Speed and High Power Application, Yaojiang Chen1 and Baile Chen1, 1ShanghaiTech Univ., China. A uni-traveling carrier photodiode structure was demonstrated and fabricated. The results show that this structure is suitable for high speed and high power application.

S4K.2 • 16:15 Spectral Characteristics of Film for Dissolved Oxygen-Sensing, Mengxue Guo1 and Weihong Bi1; 1School of Information Science and Engineering, Yanshan Univ., China. According to the experimental results, the proportioning of the prepared sensing film is determined, and the ratio of the fluorescence intensity of the sensing film to the dissolved oxygen concentration has a good linear relationship.

S4K.3 • 16:30 A 4×4 Reconfigurable Optical Processor, Farhad Shokraneh1, Mohammadreza Sanadgol Nezami1 and Odile Liboiron Ladouceur1; 1McGill Univ., Canada. A 4×4 reconfigurable MZI-based optical processor is investigated. The linear transformation matrix of the structure is theoretically determined based on its building block which is a 2×2 tunable MZI and used for programming it experimenttally.


16:00-18:00 S4F • Silicon Photonics I Presider: Tao Chu, Zhejiang University, China.

16:00-18:00 S4G • Photonic Integrated Processing Devices Presider: Radan Slavik; Univ. of Southampton, USA.

16:00-18:00 S4H • Optical Coherence Tomography Presider: Junle Qu; Shenzhen Univ., China.

16:00-18:00 S4I • Photovoltaics Presider: Yang Yang; Zhejiang Univ., China.

16:00-18:00 S4J • Mid-IR and THz Photonics Presider: Xinlun Cai; Sun Yat-sen Univ., China.

16:00-18:00 S4K • Best Paper Award Competition

Presider: Dongning Wang; China Jiliang Univ., China.

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S4A.3 • 17:00 Yttrium aluminosilicate (YAS) fiber with heavily doped of Nd for single frequency laser, Yeming Zhang1 and Jianrong Qiu2; 1South China Univ. of Technology, China; 2Zhejiang Univ., China. We demonstrate a single frequency lasers based on the yttrium aluminosilicate (YAS) fiber with heavily doping concentration of Nd3+. This multi-component YAS fiber shows the potential for single frequency lasers.

S4A.4 • 17:15 High order random Raman fiber laser operating at 1355 nm, Tianfu Yao1, Haolei Zhang1, Liangjin Huang1, Jian Wu1 and Pu Zhou1; 1National Univ. of Defense Technology, China. We demonstrate the high order random Raman fiber laser at 1355 nm by employing half-open cavity based on fiber Bragg grating firstly. The output power scales up to 1.93 W with conversion efficiency of 21.8%.


S4B.3 • 17:00 High Sensitivity Strain Sensor Based on Acousto-Optic Coupling in Cladding Etched Fiber, Jianhui Zhao1, Shao-Cheng Yan2, Hai-Kong Lu1 and Fei Xu2; 1Changzhou College of Information Technology, China; 2Nanjing Univ. Strain effect is studied in cladding etched all-fiber acousto-optic tunable filter (AOTF), China. A strain sensitivity of as high as 518 pm/με was demonstrated experimentally at 22μm for coupling between LP01 and LP11.

S4B.4 • 17:15 Determination of the complex permittivity of ultrathin H2-infused palladium coatings for plasmonic fiber optic sensors in the near infrared, Xuejun Zhang1, Tuan Guo1 and Jacques Albert2; 1Jinan Univ., China; 2Carleton Univ., Canada. We report measurements of the complex permittivity of 7 nm thick palladium thin films exposed to concentrations of 0 to 3 % (by volume) of hydrogen in nitrogen at wavelengths near 1310 nm.


S4C.3 • 17:00 CNN based OSNR estimation method for long haul optical fiber communication systems, Ziyi Wang1, Aiying Yang1, Peng Guo1, Lihui Feng1 and Pinjing He1, 1Beijing Inst. of Technology, China. A convolutional neural network is proposed for OSNR estimation on constellation diagrams. The average OSNR estimation error is lower than 1.0 dB for four modulation formats with 9 channels and long haul optical fiber transmission

S4C.4 • 17:15 A Novel 68Gb/s QPSK Coherent Optical Communication Scheme Demonstration for the Integration of Satellite Communi- cation and Ranging, Jie Yin1, Tao Dong1, Yuwei Su1, Yue Zhou2 and Kun Xu2, 1SGIIT, China; 2SBUPT, China. A novel single- polarization 68Gb/s coherent optical communication scheme employing both femtosecond fiber laser and continuous- wave laser is proposed and evaluated, which can be applied for future integration of satellite communication and ranging.


S4D.3 • 17:00 OFDM/OQAM for MIMO Visible Light Communications, Bangjiang Lin1,2, Xuan Tang1,2, Zabih Ghassemlooy1,2, Chun Lin1,2, Zhenlei Zhou1,2 and Hiaguang Zhang1,2, 1Quanzhou Inst. of Equipment Manufa- cturing,2Haixi Inst.s, Chinese Academy of Sciences, China. We experimentally demonstrate a 2 × 2 optical MIMO-VLC system based on the modified OFDM/OQAM scheme. The ASFA preamble structure is proposed to mitigate the IMI effect.

S4D.4 • 17:15 Visible Light Communication based Int- elligent Traffic Light System: Designing and Implementation, Ning Wang1, Yang Qiao1, Wuqu Wang1, Suheng Tang1 and Jianhua Shen1, 1Nanjing Univ. of Posts and Telecommunications, China. A VLC based intelligent traffic light is proposed to control traffic light signals to ensure trucks passing through intersection without deceleration or emergency braking. Demo system is design and implemented.


S4E.2 • 16:45 Recent advances in optical technologies for creating ultra-high capacity wireless indoor networks, Ton Koonen1, Fausto Gomez-Agis2, Jiunyu Sung1, Zizheng Cao1, Ketemaw Mekonnen1, Frans Huijskens1 & Eduward Tangdiongga1; 1TU/e, Nether- lands; 2CAILabs, France. Optical wireless communication is a powerful alternative for wireless radio-based communication. We explored directional infrared beams which each can offer an independent ultra-high capacity communication link, and demonstrated streaming of multiple 10GbE high-definition video signals.

S4E.3 • 17:15 Standard-Compliant Dynamic Bandwidth Allocation in OFDM-PON Supporting Multi-Service, Yuying Liu1, Yejun Liu1, Na Yan1, Pengchao Han 1and Lei Guo1; 1Northeastern Univ., China. A dynamic bandwidth allocation mechanism is proposed for OFDM-PON under the MAC framework of the widespread Ethernet PON, such that OFDM-PON can be compatible with the existing PON and support the emerging haptic communication.


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S4F.3 • 17:00 Silicon Hybrid Plasmonic Devices for Next Generation Photonic Integrated Circuits, Zhiping Zhou1 and Bowen Bai1; 1Peking Univ., China. The integration density of silicon photonics can be increased with the help of plasmonic. This presentation focuses on the efforts of our group in developing silicon hybrid plasmonic devices for next generation photonic integrated circuits.


S4G.3 • 17:00 Integrating Baseband Digital Opt- ical Link and Six-Port Transceiver for Wireless Communications, Xiaoxiong Song1, Jianqiang Li1, Yuting Fan1, Feifei Yin1, Yitang Dai1 and Kun Xu1, 1Beijing Univ. of Posts and Telecommunications, China. A complete scheme by integrating baseband digital optical link and six-port transceiver is proposed. Performances are evaluated by using 2 Gbaud 16QAM signals at 26 GHz after transmission over up to 20 km single-mode fiber.

S4G.4 • 17:15 High-Speed Interrogation of a Fiber Grating Sensor based on Wavelength-to-Time Mapping and a Fabry-Perot Configuration, Ou Xu1, 1Guangdong Univ. of Technology, China. A novel approach to interrogate a fiber grating sensor based on spectral-shaping and wavelength-to-time mapping is proposed and simulated. In the system, two chirped fiber Bragg gratings are employed to form a Fabry-Perot interference structure.


S4H.3 • 17:00 In vivo imaging of inner plexiform layer lamination with visible light OCT, Tingwei Zhang1, Marcel Bernucci1, Shau Poh Chong1 and Vivek Srinivasan1; 1Univ. of California, Davis, United States. Visible light optical coherence tomography provides higher axial resolution. Here, we demonstrate imaging of lamination in the inner plexiform layer using achromatized visible light OCT in vivo, which correspond well with the standard anatomical division.

S4H.4 • 17:15 All-reflective 1.7 um Swept- Source Optical Coherence Tomog- raphy for deep imaging, Shau Poh Chong1, Zhen Yu Gordon Ko1 and Nanguang Chen1; 1National Univ. of Singapore. A novel all-reflective Swept-source Optical Coherence Tomography at 1.7 um wavelength is developed to improve penetra- tion depth and spatial resolution when imaging highly scattering turbid media such as mouse brain and pharmaceutical tablets.


S4I.3 • 17:00 Efficient and stable of perovskite optoelectronic devices, Jingbi You1; 1Inst. of Semiconductors, Chinese Academy of Sciences, China. In this talk, I will talk about perovskite solar cells and light-emitting diodes.


S4J.3 • 17:00 Subwavelength Grating Microdisk for Mid-infrared Optical Sensing, Long Zhang1 and Daoxin Dai1; 1Zhejiang Univ., China. A silicon- based subwavelength grating microdisk for mid-infrared optical sensing is proposed and demonstrated experimentally. It has a high sensitivity (~205nm/RIU), a high extinction ratio (~16dB), and a large quasi free-spectral range (~41.6 nm).

S4J.4 • 17:15 Silicon-based add-drop optical filter at 2 μm, Dajian Liu1, Hao Wu1 and Daoxin Dai1; 1Zhejiang Univ., China. An add-drop optical filter on silicon at 2μm is designed and demonstrated by using a multimode asymmetric waveguide grating (MAWG). For the ~100μm- long MAWG, the 0.5dB- bandwidth is 6~26nm and the sidelobe suppression ratio is 22~27dB.

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S4K.4 • 16:45 Supercontinuum generation trigg- ered by a weak 100-kHz linewidth continuous-wave, Renlai Zhou1, Rongle Huang1, Hongpeng Xin2, Qian Li1, H.Y. Fu3; 1Peking Univ., China; 2Harbin Engineering Univ., China; 3TBSI Tsinghua Univ., China. We experimentally and numerically demonstrate efficient supercontinuum generation in highly nonlinear dispersion-shifted fiber trigg- ered by a weak 100-kHz linewidth continuous-wave at the 10-7 level relative to the pump, which is the lowest power reported.

S4K.5 • 17:00 Fundamental-mode Phase-matched Third Harmonic and Triplet Photon Generation based on Heterogeneous Mode Interaction, Tianye Huang1, Jianxing Pan1, Ping Shum2, Gilberto Brambilla3, Zhuo Cheng1 and Xuguang Shao2; 1China Univ. of Geosciences (Wuhan), China; 2NTU, Singapore; 3Univ. of Southampton, UK. Phasematching between fundamental plasmonic mode and photonic mode for third harmonic and triplet photon generation is achieved in a dielectric-loaded waveguide. A THG efficiency of 10-4 and a TPG rate of 28 Hz are predicted.

S4K.6 • 17:15 High-dimensional linear operation for phase-coherent spatial modes, Peng Zhao1, Xue Feng1, Wei Zhang1 and Yidong Huang1, 1Tsinghua Univ., China. High-dimensional linear operations are significant for the quantum optics. Much higher dimensionality has been achieved with non-cascaded approach in this work, which is very promising for various applications in quantum domain.


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S4A.5 • 17:30 Tunable multiwavelength Brillouin random fiber laser, Zhaoyu Ji1, Yuxiang Deng1, Hongdan Wan1 and Zuxing Zhang1; 1Nanjing Univ. of Posts and Telecom- munications, China. A novel tunable multiwavelength random fiber laser with half-open cavity has been demonstrated. Seven Stokes lines have been achieved. The wavelength of the Brillouin random fiber laser can be tuned in 50 nm wavelength range.

S4A.6 • 17:45 3-kilowatt all-fiber distributed side- pumped oscillator with high SRS suppression, Heng Chen1, Jianqiu Cao1, Zhihe Huang1, Yankun Ren1, Xiaolin Wang1 and Jinbao Chen1; 1NUDT, China. With the distributed-side-coupled cladding- pumped (DSCCP) fiber of independent design, we firstly demonstrated a 3- kilowatt distributed side-pumped oscillator. An output power of 2.95 kW with a slope efficiency of 77.4% is obtained (M2≈2.04).


S4B.5 • 17:30 Highly sensitive temperature sensor based on a Mach-Zehnder interfereometer created in graded index fiber, Zhang Fengchan1, He Jun1, Xu Xizhen1 and Wang Yiping1; 1 Shenzhen Univ., China. A Mach-Zehnder interferometer based on a graded index fiber is proposed and demonstrated for temperature measurement, which exhibits high sensitivity of -12.73 nm/RIU with the assistant of high thermo-optic coefficient liquid.

S4B.6 • 17:45 Fiber-optic anemometer with intensity linear demodulation, Fang Wang1, Yang Zhang1, Zhihui Duan1, Zhenguo Jing1, Dapeng Zhou1 and Wei Peng1; 1Dalian Univ. of Technology, China. A linear- response and simple optical fiber hot-wire anemometer based on SWCNTs coated TFBG is proposed. The sensitivity is as high as 7.425 dBm/(m/s) and the R2 =0.9927 under a low input power of only 29.3 mW.


S4C.5 • 17:30 Low-overhead Equalization by SVM Classification Enabled 25-Gb/s NRZ per Wavelength Transmission with 10-G Class Optics, Jiasheng Yu1, Xin Miao2, Meihua Bi1,2, Longsheng Li2 and Weisheng Hu2, 1Hangzhou Dianzi Univ., China; 2Shanghai Jiao Tong Univ., China. We demonstrate a low-overhead SVM-based equalizer to improve performance of high-speed band-limited system. Experi- mental results show that, 0.06% overhead and 5-taps is used to obtain the same performance as DFE with 0.2% overhead and 11-taps.

S4C.6 • 17:45 MAP Decoder for Nonlinear Compe- nsation in WDM DP-QPSK Systems, Shuai Yuan1 and Koji Igarashi1, 1Osaka Univ., Japan. We propose MAP decoder for nonlinear compensation in WDM DP-QPSK transmission. Numerical results show that our proposed scheme is effective to suppress BER degradation due to fiber nonlinearity even in the SSMF- based dispersion-managed transmission.


S4D.5 • 17:30 Using piecewise polynomial fitting as threshold to improve the performance of mobile phone camera based VLC system, Zhenshan Zhang1, Tiantian Zhang1, Yueming Lu1 and Yaojun Qiao1, 1BUPT, China. We propose using piecewise polynomial fitting as threshold to improve the performance of mobile phone camera based VLC system. Experiment results show transmission distance is increased by 75 cm at data rate of 2 Kbps.

S4D.6 • 17:45 Study on Angle Diversity Receiving System for Visible Light Communi- cations, Junya Kishi1 and Shiro Ryu1, 1Meiji Univ., Japan. Visible light communication systems using angle diversity receiver and transmission diversity are studied theoretically. The results show that the angle diversity receiver needs nine photodiodes considering practically ach- ievable field of view of the devices.


S4E.4 • 17:30 Power Allocation for Maximum Effective Transmission in Cooperative FSO Net- works, Song Song1, Yejun Liu1, Lei Guo1, Yuting Meng 1and Ning Lu1; 1Northeastern Univ., China. We focus on the problem of power allocation maximizing throughput of cooperative FSO system. Simulation results demonstrate that the proposed algorithm can significantly improve the performance of cooperative FSO system in throughput and reliability.

S4E.5 • 17:45 Resilience Aware Topology Formation in FSO-based Fronthaul/Backhaul Netw- orks, Zhiqun Gu1, Jiawei Zhang1 and Yuefeng Ji1; 1BUPT, China. We design a resilience aware topology formation strategy to maximize the path reliability of network topology in FSO-based fronthaul/backhaul networks. Results show that our proposed strategy can significantly improve network resilience of the network topology.



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S4F.4 • 17:30 Integrated Photonic OAM Emitter with Wide Tuning Range, Sirui Yuan1, Peng Zhao1, Xue Feng1, Wei Zhang1 and Yidong Huang1; 1Tsinghua Univ., China. An integrated photonic OAM emitter has been theoretically designed, numerically simulated, experimentally fabricated. With our proposal, a larger dynamic switching range of OAM modes and higher radiation efficiency can be achieved.

S4F.5 • 17:45 Compact 2×2 and 4×4 General Interference Multimode Interfero- meters Based on Hybrid Plasmon- ic Waveguide, Jin Wang1, Yunchao Zhang1, Zhen Wang2, Yumeng Zhai1 and Yunqing Lu1; 1Nanjing Univ. of Posts and Telecommunications, China; 2Shanghai Jiao Tong Univ., China. We propose 2×2 and 4×4 general MMIs based on hybrid plasmonic waveguides, used for 90° mixers. With the length of 4.57μm/17.5μm for 2×2/4×4 MMI, both MMIs exhibit phase errors below 0.7°, transmission imbalan- ces below 0.6dB.


S4G.5 • 17:30 A photonic approach for LFM bandwidth broadening based on sub-chirp signal splicing, Yirong Xu1, Shangyuan Li1, Xiaoxiao Xue1, Xiaoping Zheng1 and B.K. Zhou1, 1Tsinghua Univ., China. A photonic scheme based on subchirp signal splicing is proposed to achieve linear frequency modulated signal bandwidth broadening. Bandwidth broadening factor of 2 and time bandwidth product multiplication factor of 4 are achieved through experiment.

S4G.6 • 17:45 Optical Vector Analysis Based on Symmetric Double-Sideband Mo- dulation for Fabry-Perot Interfero- meters Measurement, Long Ye1, Zenghui Chen1, Jian Dai1 and Kun Xu1, 1Beijing Univ. of Posts and Telecommunications, China. We propose and experimentally demonstrate an optical vector analyzer based on symmetric optical doub- lesideband modulation and Pound- Drever-Hall technique. The measured frequency responses of the Fabry-Perot interferometer are con- sistent in 90 minutes.


S4H.6 • 17:30 Optimization, characterization and comparison of a combined point-scan and line-scan spectral domain OCT for measuring hemodynamic of chicken embryo's developing heart, Zhen Yu Gordon Ko1, Shau Poh Chong1 and Nan- guang Chen1; 1National Univ. of Singapore. The effective performance of an ultrahigh speed linescan Optical Coherence Tomogra- phy (OCT) system will be compared to a point-scan OCT counterpart in term of maximal sensitivity, imaging speed, and contrast by imaging developing chicken embryo.


S4I.4 • 17:30 Enhanced photovoltage for p-i-n perovskite solar cells, Deying Luo1 and Rui Zhu1; 1Peking Univ., China. Perovskite solar cells (PSCs) with p-i-n architectures have gained tremendous attention because of their simplified device architectures. Here, we donstrate a record PCEs exceeding 21.50% in p-i-n PSCs with a high Voc of 1.21 V.

S4I.5 • 17:45 Hot Carrier Dynamics in 2D Organic-inorganic Hybrid Perov- skites, Xuguang Jia1, Jun Jiang1, Yi Zhang2, Shubo Wang1, Ningyi Yuang1 and Jianning Ding1; 1Changzhou Univ., China; 2Hohai Univ., China. An enhanced hot phonon bottleneck effect in 2D perovskites due to the organic cation and quantum confinement effect is observed by femtosecond transient absorption spectroscopy.


S4J.5 • 17:30 Speed Characterization of InGaAs /GaAsSb Type-II Quantum Wells PIN Photodiodes, Yaojiang Chen1, Qian Gong2 and Baile Chen1; 1Shanghai Tech. Univ., China; 2Shanghai Inst. of Microsystem and Information Tech., China. A normal incident InGaAs/GaAsSb type-II quantum wells PIN photodiode is demonstrated for 2µm wavelength high speed application. Results show this device has capability for 2µm high speed operation with 3dB-bandwidth of 2.93 GHz.

S4J.6 • 17:45 Mid-wave InAs/GaSb Superlattice PiBN Infrared Photodetector Grown on GaAs Substrate, Jian Huang1, Daqian Guo2, Zhuo Deng1, Huiyun Liu2, Jiang Wu2 and Baile Chen1; 1ShanghaiTech Univ., China; 2Univ. College London, United Kingdom. We present a GaAs based PiBN InAs/GaSb type II superlattice photodetector for mid infrared application with peak responsivity of 0.44A/W at 4.1um at 77K under 0V.

Tianren Hall, Joint

S4K.7 • 17:30 Two-photon focal modulation microscope, Rui Chen1, Young- hoon Shin2, E Du1, Shuhao Shen1, Peter T. C. So2 and Nanguang Chen1; 1National Univ. of Singapore, Singapore; 2BioSyM, Singapore MIT Alliance for Research and Techn- ology (SMART), Singapore. A two-photon focal modulation microscope is developed theore- ticcally and experimentally to reject out-of-focus signal by bringing a spatiotemporal phase modulator (STPM), which significantly suppress the background and achieve the same resolution as a two-photon microscope.

S4K.8 • 17:45 K-Nearest Neighbors Classifier for Field Bit Error Rate Data, Stéphanie Allogba and Christine Tremblay; 1École de technologie supérieure, Canada. In this paper, we propose a bit error rate classifier based on the K-nearest neighbors algorithm for classifying field data. The classification accuracy increases up 97.8% depending on the features considered in the classification process.






Su1A.1• 08:30 All-solid fluorotellurite fibers for 10-W- level mid-infrared supercontinuum generation, Guanshi Qin1; 1Jilin Univ., China. We demonstrated 10.4 W mid-infrared supercontinuum laser source, and ultra- broadband supercontinuum generation from 600 nm to 5.2 m in newly-developed all-solid fluorotellurite fibers.


Su1B.1 • 08:30 L-Band Dissipative Soliton Generation In An All-Fiber Er-Doped Laser With A 45° Tilted Fiber Grating, Qianqian Huang1, Chuanhang Zou1, Zhijun Yan2, Chengbo Mou1, Kaiming Zhou3 and Lin Zhang3; 1Shanghai Univ., China; 2Huazhong Univ. of Science and Technology, China ; 3Aston Univ., United Kingdom. We demonstrate an all-fiber dissipative soliton Er-doped laser in L-band region using a 45°titled fiber grating for the first time. 697fs dissipative soliton with 30.19 nm spectral bandwidth at 1596.12 nm is realized.

Su1B.2 • 08:45 Enhanced strain dynamic range of slope-assisted Brillouin optical correlation-domain reflectometry, Heeyoung Lee1, Yosuke Mizuno1 and Kentaro Nakamura1; 1Tokyo Inst. of Technology, Japan. We experimentally show that the strain dynamic range of slope-assisted Brillouin optical correlation-domain reflectometry can be enhance by three times than that of the previously reported value by deteriorating the spatial resolution of the system.


Su1C.1 • 08:30 High Capacity Transmission with Three- Mode Fibers, Georg Rademacher1, Ruben S. Luis1, Benjamin J. Puttnam1, Tobias A. Eriksson1, Hideaki Furukawa1, Yoshinari Awaji1 and Naoya Wada1, 1National Inst. of Information and Communications Techno- logy, Japan. We report recent demonstrations of high capacity transmission with three-mode fibers. The presented experiments include record per-fiber-core transmission of over 280 Tbit/s and over 159 Tbit/s in a recirculating loop experiment over 1045 km.


Su1D.1 • 08:30 Utilization of 850 nm Near-infrared VCSEL for High-capacity Indoor Free Space Optical Communications, Zixian Wei1, Mingyue Guan1, Zihan Zang1 and H.Y. Fu1, 1Tsinghua Univ., China. To provide an alternative for indoor wireless communications, a low-power 850-nm VCSEL based free-space optical (FSO) system was proposed and demonstrated, with a bandwidth up to 1.05 GHz over a 3.1 m transmission distance.

Su1D.2 • 08:45 Bandwidth-Variable DWDM Transmis- sion for Data Center Interconnects Using Multidimensional PAM, Simon Ohle- ndorf1, Stephan Pachnicke1 and Werner Rosenkranz1, 1Christian-Albrechts-Universi- tät zu Kiel, Germany. We experimentally vary the bandwidth by using multidimensional PAM at a fixed data rate of 112 Gb/s.Optical SSB-filtering and Kramers- Kronig reception enable DWDM transmission with IM/DD over 100 km uncom- pensated SSMF without in-line amplification.


Su1E.1 • 08:30 Converged Fronthaul/Backhaul based on Integrated Hybrid Optical Networks, Federico Tonini1, Carla Raffaelli1, Bahare Khorsandi1, Steinar Bjornstad2 and Raim- ena Veisllari2; 1Univ. of Bologna, Italy; 2Transpacket AS, Norway. Integrated hybrid optical network is investigated to carry both fronthaul and backhaul traffic on an Ethernet optical channel. Evaluation of the additional backhaul throughput is presented to demonstrate the effectiveness of the approach.

Su1E.2 • 08:45 A Marketplace for Real-time Virtual PON Sharing, Nima Afraz and Marco Ruffini1; 1CONNECT CENTRE, Trinity College Dub- lin, Ireland. We propose a marketplace where multiple network operators coex- isting on the same passive optical network (PON) infrastructure can share their excess capacity. We designed a double auction to assure efficient allocation of optical access capacity.

ACP 2018 — Sunday, 28 October

08:30-10:30 Su1A • Fiber Lasers II Presider: Ryszard Buczynski; Inst. of Electronic Materials Technology, Poland.

08:30-10:30 Su1B • Best Student Paper Award Competition Track 1 Presider: Liyang Shao; Southern Univ. of Science and Tech., China.

08:30-10:30 Su1C • Transmission Techniques I Presider: Jian Chen; Nanjing Univ. of Posts and Telecommuni- cations, China.

08:30-10:30 Su1D • Best Student Paper Award Competition Track 2 Presider: Lilin Yi, Shanghai Jiao Tong Univ., China.

08:30-10:30 Su1E • Best Student Paper Award Competition Track 3 Presider: Lena Wosinska, KTH Royal Inst. of Tech., Sweden.

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Su1F.1 • 08:30 High-order transverse-magnetic mode Mach-Zehnder modulator for OOK modulation, Xinyi Wang1, Linjie Zhou1, Siqi Liu1, Gangqiang Zhou1, Liangjun Lu1 and Jianping Chen1; 1Shanghai Jiao Tong Univ., China. We present a silicon Mach- Zehnder modulator (MZM) for high-order TM modes. A single- drive push-pull electrode with L- shaped vertical PN-junctions are employed to provide a high modulation efficiency.

Su1F.2 • 08:45 Hybrid III-V on Silicon Fast and Widely Tunable Laser Based on Rings Resonators with PIN Jun- ctions, Théo Verolet1, Antonin Gallet1, Xavier Pommarède2, Jean Decobert1, Dalila Make1, Jean-Guy Provost1, Maryse Fournier3, Christ- ophe Jany3, Ségolène Olivier3, Alexandre Shen1 and Guanghua Duan1; 1III-V Lab, a joint lab of Nokia, Thales & CEA, France; 2Ph.D work hosted in III-V Lab Thesis defended May 2017, France; 3Optics & Photonics Department CEA Leti, France. We report on a fast tunable laser in the III-V/SOI platform. Tunability was achieved thanks to carrier injection. The switching time is around 1.5 ns, making this device a solution for wavelength packet switching.


Su1G.1 • 08:30 Photonics-based coherent MIMO radar networks, Lembo L.1.2, Ghelfi P.2, Bogoni A.2.3; 1Italian Navy, Naval Research Center CSSN, Vallauri Inst., Italy; 2CNIT, Italy; 3Scuola Superiore Sant’Anna, Pisa, Italy. This paper presents some recent evolutions of the concept of photonics-based radar. In particular, it reports on the coherent MIMO radar network enabled by the use of photonics and it summarize their potential and applications.


Su1H.1 • 08:30 Fluorescence lifetime technology and microenvironment sensor, Junle Qu1; 1Shenzhen Univ., China. Fluorescence lifetime imaging microscopy (FLIM) has been widely applied in biomedicine. In this talk, we first introduce the principle of FLIM and its typical applications, then present a discussion on the challenges for FLIM technology.


Su1I.1 • 08:30 Integration of graphene on silicon for photovoltaics, Xuegong Yu1, Kun Huang1 and Deren Yang1; 1Zhejiang Univ., China. This talk will review the new results of Gr-Si solar cells in our lab.


Su1J.1 • 08:30 Physical Layer Control for Dis-aggregated Optical Systems, Daniel Kilper1, Shengxiang Zhu1 and Jiakai Yu1; 1Univ. of Arizona, USA. Disaggregating optical communication systems can impact physical layer control. Recent progress on multi-domain transmission control and machine-learning provide capabilities for adaptation and development of engineering rules in the field with potential benefits for disagregated systems.

Tianren Hall, Joint

Su1K.1 • 08:30 Seamless Integration of a Fiber- THz Wireless-Fiber 2×2 MIMO Broadband Network, Wang Can1, Li Xinying1, Wang Kaihui1, Zhou Wen1 and Yu Jianjun1, 1Key Laboratory for Information Science of Electromagnetic Waves (MoE), China. For the first time, we experimentally demonstrate a 2×2 MIMO architecture to realize fiber- THz-fiber seamless integration using PDM-QPSK signals at 450GHz. The maximal bit rate is 18 Gb/s and BER below HD-FEC threshold of 3.8×10-3.

Su1K.2 • 08:45 Photonics-based Multiband Radar Applying an Optical Frequency Sweeping Comb and Photonic Dechirp Receiving, Bindong Gao1, Fangzheng Zhang1, Yao Yao1 and Shilong Pan1, 1Nanjing Univ. of Aeronautics and Astronautics, Chi- na. A simplified photonics- based multiband radar is proposed applying an optical frequency sweeping comb and photonic dechirp receiving. Its feasibility is verified through a dual-band radar experiment with a bandwidth of 3 GHz in each band.


08:30-10:30 Su1F • Best Student Paper Award Competition Track 4 Presider: Eric Cassan, Univ. of Paris-Sud, France.

08:30-10:30 Su1G • Microwave Photonic Communication Presider: Zhixin Liu, Univ. College London, UK.

08:30-10:30 Su1H • Advanced Optical Diagnostic Technology I Presider: Yiqing Lu; Macquarie Univ., Australia.

08:30-10:30 Su1I • Photovoltaics & Solar Steam Generation Presider: Jia Zhu; Nanjing Univ., China.

08:30-10:30 Su1J • Software Defined Networking I Presider: Gangxiang Shen; Soochow Univ., China.

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08:30-10:30 Su1K • Best Student Paper Award Competition Track 5-9 Presider: Jian Wang; Huazhong Univ. of Sci. and Tech., China.

Invited Invited Tutorial

Sunday, 28 October



Su1A.2 • 09:00 High power fiber lasers: key components and digital design, Pu Zhou1; 1National Univ. of Defense Technology, China. In this presentation, we will talk about the recent research progress in our group (including collaborative achieve- ments) on enabling techniques such as high brightness pump source, passive fiber components, theoretical modeling and software integration, based on which varies kinds of high power fiber lasers have been demonstrated.

Su1A.3 • 09:30 (8+1) Pump-gain Integrated Functional Fiber Oscillator, Kun Peng1, Huan Zhan1, Xiaolong Wang1, Li Ni1, Yuwei Li1, Shuang Liu1, Shihao Sun1, Jiangli Jiang1, Juan Yu1, Jianjun Wang1, Feng Jing1 and Aoxiang Lin1; 1China Academy of Engineering Physics, China. We demonstrated an (8+1) type pump-gain integrated functional fiber oscillator counter-pumped by commercial laser diodes. By mutually splicing any two forward pump-fibers and therefore rec- ycling residual pump, optical-to-optical efficiency was improved by 6.4% at multi- hundreds level.


Su1B.3 • 09:00 Widely Tunable Passively Mode-locked Fiber Laser Based on 45° Tilted Fiber Grating with Strong Polarization Depen- dent Loss, Bingbing Lu1, Chuanhang Zou1, Qianqian Huang1, Chengbo Mou1, Zhijun Yan2 and Lin Zhang3; 1 Shanghai Univ., China; 2Huazhong Univ. of Science and Technology, China; 3Aston Univ.,China. We demonstrate a wavelength tunable all- fiber passively mode-locked laser based on 45° titled fiber grating with strong polarization dependent loss of 33 dB. The laser cavity can realize the wide tuning range of 24nm.

Su1B.4 • 09:15 Kilowatt-level, mode-instability-free, all- fiber and polarization-maintained amplifier with spectral linewidth of 1.8 GHz, Wenchang Lai1, Pengfei Ma1 and Pu Zhou1; 1National Univ. of Defense Technology, China. By using a piece of double- cladding, large-mode-area(LMA) Yb-doped and polarization-maintained fiber and phase modulation technique, we obtain kilowatt-level, MI-free output power with spectral linewidth of 1.8 GHz.

Su1B.5 • 09:30 A Broadband Mode Converter from LP01 to LP11 Modes based on a Long-Period Fiber Grating using a Two-Mode Fiber, Motoyuki Shioji1, Hirokazu Kubota1, Masaharu Ohashi1 and Yuji Miyoshi1; 1Osaka Prefecture Univ., Japan. We investigate a mode converter with a long- period fiber grating using a two-mode fiber. The feasibility of the mode converter with a bandwidth of 500 nm is numerically clarified for suitable fiber parameters.


Su1C.2 • 09:00 Advances in Power-Efficient SDM Transmission Technologies, Emmanuel Le Taillandier de Gabory1, Keiichi Matsumoto1 and Hitoshi Takeshita1, 1NEC Corporation, Japan. We report advances in power- efficient SDM transmission technologies. We emphasize on the system design and the benefits of SDM technologies. We show progresses of power-efficient multicore amplifiers.

Su1C.3 • 09:30 Impacts of ADC Parameters on the Per- formance of MLSE-decoding in 10G- optics Enabled 50-Gb/s PAM-4 Trans- mission System, Tingting Xu1, Junjie Peng1, Zhengxuan Li1, Yingxiong Song1, Yingchun Li1 and Min Wang1, 1Shanghai Univ., China. Impacts of sampling jitter and resolution of ADC on the performance of MLSE-decoding 50-Gb/s PAM-4 transmission system are investigated. Experim- ental results show ~-11.5 dBm sensitivity is achieved by 5-bit ADC with ±5ps timing jitter tolerance.


Su1D.3 • 09:00 Atmospheric Turbulence Affected Pol-MUX QPSK Modulating Retro- Reflection FSO Transmission in an Atmospheric Cell, Xianglian Feng,1 Hexin Jiang1, Zhihang Wu1, Tianshu Wang2, Hulin Jiang2 and Shiming Gao1, 1Zhejiang Univ., China; 2Changchun Univ. of Science and Technology, China. We experimentally test the atmospheric turbulence influence on modulating retro-reflection free-space optical transmission in an atmospheric cell using 40 Gb/s polarization-multiplexing quadrature phase-shift keying signals. The power penalty is <1.5 dB at 1E-3 BER.

Su1D.4 • 09:15 Machine Learning Detection for DMT Modulated 112-Gbps VCSEL-MMF Optical Interconnection, Chang Wang1, Guoyao Chen1, Haoyang Wang1, Lin Sun1, Jiangbing Du1, Ke Xu2, Bo Liu3 and Zuyuan He1; 1Shanghai Jiao Tong Univ., China; 2Harbin Inst. of Technology (Shenzhen), China; 3Nanjing Univ. of Information Science & Technology, China. 112-Gbps VCSEL-MMF optical interconnection has been experimentally demonstrated in paper, based on DMT assisted by machine learning signal processing. The results indicate an effective nonlinearity mitigation by machine learning detection of SVM with improved BER.

Su1D.5 • 09:30 4Tb/s Faster-than-Nyquist WDM 16- QAM signal Transmission with Kramers- Kronig Detection, Yixiao Zhu1, Mingxuan Jiang1 and Fan Zhang1, 1Peking Univ., China. We demonstrate faster-than-Ny- quist WDM transmission of 4.096Tb/s (32×128Gb/s) 16-QAM signal with Kramers-Kronig detection. After 80km SSMF transmission, the BERs are all below 4.5×10-3, achieving net spectral efficiency of 4.04bit/s/Hz for single polarization 16-QAM signal.


Su1E.3 • 09:00 Benefits of Employing Reconfigurable and Hybrid Interconnection Network for HPC System, Yu Shang1, Bingli Guo1, Shan Yin1, Xin Li1, Shanguo Huang1, Weiguo Ju2 and Yuan Yuan2; 1Beijing Univ. of Posts and Telecommunications, China; 2China Information Consulting & Designing Inst. CO., LTD, China. We analyze benefits of a novel reconfigurable optical and electrical hybrid network for HPC system performances over different traffic patterns, and the proposed network architecture can bring up to 2.5x reduction of task completion time.

Su1E.4 • 09:15 Experimental Demonstration of Flexible TDM-PON Fronthauling, Ubaldo Bucci1, Andrea Marotta1, Koteswararo Kondepu2, Cristian Antonelli1, Luca Valcarenghi2 and Dajana Cassioli1; 1Univ. of L'Aquila, Italy; 2Scuola Superiore Sant'Anna, Italy. Flexible functional split over a commercial TDM-PON is experimented in converged software defined access network. Measured fronthaul delay and bandwidth utilization show its capability of serving both secondary services and flexible fronthaul.

Su1E.5 • 09:30 Flexible Service Chain Mapping in Server-Centric Optical Datacenter Networks, Qiman Chen1, Qiong Zhang2, Bing Yang1, Dan Zhang1 and Jiajia Chen3; 1South China Normal Univ., China; 2Fujitsu Laboratories of America, Inc, United States; 3KTH Royal Inst. of Technology, Sweden. We investigate flexible service chain mapping in server-centric optical interconnects, handling virtual network function (VNF) dependency properly. Blocking probability decreases by a factor of 10 when assigning multiple VNFs in the same server is allowed.


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Su1F.3 • 09:00 Optical-Response Analysis of Voltage-Modulated 1.3 µm Wavelength AlGaInAs/InP Trans- istor Laser, Yusei Goto1, Shoichi Yoshitomi1, Kentaro Yamanaka1, Nobuhiko Nishiyama1 and Shigeh- isa Arai1; 1Tokyo Inst. of Technology, Japan. We simulated the optical- response of large signal for Transistor Laser by voltage modulation considering the transient change. We found better conditions for better oscillation of Trans- istor Laser.

Su1F.4 • 09:15 Temperature sensitivity enhancement for silicon-based Mach- Zehnder interferometer with single-mask design, Yang Zhang1, Jun Zou2 and Jian-Jun He1; 1Zhe- jiang Univ., China; 2Zhejiang Univ. of Technology, China. We propose a sensitivity-enhanced temperature sensor using a Mach-Zehnder Interferometer (MZI) on silicon-on- insulator (SOI) platform, with the sensitivity as high as 438pm/°C. The sensor is fabricated only by a single mask without any polymer clad-ing.

Su1F.5 • 09:30 On the frequency tunability of dissipative Kerr soliton microcombs, Boyang Wang1, Wenwen Cui1, Yong Geng1 and Heng Zhou1; 1Univ. of Science and Technology of China, China. Dissipative Kerr soliton microcombs with tunable center-frequency and mode-spacing are experimentally demonstrated. Continuous center frequency tunability over 2 GHz, and discrete mode-spacing change over 3-fold are realized while precisely maintaining DKS state unchanged.


Su1G.2 • 09:00 Advancements in hybrid RoF for 5G applications, Liam Barry1, Colm Browning1 and Amol Delmade1, 1dcu, Ireland. This talk will present the advantages of using optical frequency combs for photonic generation of RF signals in hybrid radio-over-fibre 5G networks, and the performance that can be achieved employing OFDM formats in these networks.

Su1G.3 • 09:30 Mitigation of SSBI based on Kramers–Kronig receiver in SSB- OFDM-RoF system, Yuancheng Cai1, Xiang Gao1, Yun Ling1, Bo Xu1 and Kun Qiu1, 1Univ. of Science and Technology of China, China. We propose and demonstrate the use of Kramers–Kronig receiver in SSB-OFDM-RoF system. It can provide about 3 dB gain over the common mixer-based receiver scheme for 28-GBaud SSB-OFDM signal over 80km SSMF.


Su1H.2 • 09:15 Single-shot ultrafast imaging for biomedical applications, Keiichi Nakagawa1; 1The Univ. of Tokyo, Japan. To capture non-repetitive ultrafast dynamics events, I have developed a single-shot imaging, known as sequentially timed all- optical mapping photography (STA- MP). I will introduce ultrafast imaging with STAMP and suggest the future application of ultrafast imaging.


Su1I.2 • 09:00 Tailoring Nanostructures for Inte- rfacial Solar Steam Generations, Jia Zhu1; 1Nanjing Univ., China. Water scarcity is one of the most pressing global challenges. Nano- materials with carefully tailored properties can be used to manipu- late the flow of phonons, electrons and photons, to enable unconventional solution to addressing this issue.

Su1I.3• 09:30 Fabrication of 2D Perovskite Based Heterostructures for Opto- electronic Applications, Dehui Li1; 1Huazhong Univ. of Science and Technology, China. We report on fabrication of 2D perovskite micro- plates with pure single n-number perovskite phase for n>2 and a low-temperature synthetic strategy for synthesis of 2D perovskite- based lateral and vertical 2D perovskite heterostructures.


Su1J.2• 09:00 Software defined open programmable packet optical networking, Robert Keys1; 1Juniper Networks, Canada. In this paper we will examine how the emergence of open and standard software interfaces are helping to drive the convergence of optical and packet networking.

Su1J.3 • 09:30 Security and Intelligence for Future Optical Networks, Jie Zhang1; 1BUPT, China. Optical networks in the future are talked about under the topics of security and intelligence. Some new solutions based on optical information security and artificial intelligence are proposed and discussed in this talk.

Tianren Hall, Joint

Su1K.3 • 09:00 Optical Forces of Forward Stimulated Brillouin Scattering in Optical Nanofibers, Min Cao1, Min Tang1, Yuean Mi1, Haisu Li1, Wei Jian1, Guobin Ren1; 1Inst. of Lig- htwave Technology, Beijing Jiao- tong Univ., China. The optical forces of forward stimulated Bril- louin scattering (FSBS) in nanofibers are investigated through numerical methods. Only the transverse- distributed boundary pressure of FSBS contributes significantly to the Brillouin gain in nanofibers.

Su1K.4 • 09:15 Pulse Width Tunable Passively Q-Switched Fiber Laser with Ptse2 Saturable Absorber, Kang Zhang1, Ming Feng1, Yangyang Ren1, Jie Yang1, Fang Liu1, Xiaoqing Yan1, Feng Song1, Jianguo Tian1; 1Nankai Univ., China. We report a pulse width tunable passively Q-switched fiber laser by using PtSe2, a new saturable absorber (SA). The output pulse width could be controlled with the cross absorption modulation (XAM) effect in PtSe

Su1K.5 • 09:30 Optical detection of otitis media using modified spectroscopic Otoscope, Lingna Hu1, Wansha Li1, Huiying Lin1, Ying Li1, Hao Zhang1, Katarina Svanberg1,2, Guangyu Zhao1 and Sune Svanberg1,2 ; 1South China Normal Univ., Sweden; 2Lund Univ., Sweden. Otitis media is a common infectious disease in early childhood. We use an optical diagnostic system combines otoscopy and spectroscopy to improve the accuracy of diagnosis of otitis media.


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Su1A.4 • 09:45 Visible Coherent Femtosecond Super- continuum from Air-Suspended-Core Photonic Crystal Fiber, Jindan Shi1, Han Feng1 and Xian Feng2; 1Jiangsu Normal Univ., China; 2Beijing Univ. of Technology, China. We report efficient visible supercontinuum (SC) generated from a borosilicate glass photonic crystal fiber, using an 800-nm Ti: sapphire femtosecond laser. Using Michelson interferometer, the SC coherence has been measured to be ~0.8.

Su1A.5 • 10:00 Flat supercontinuum generation using a fluoride fiber pumped by mode-locked fiber laser, Ye Yu1, Huanhuan Liu1, Wei Song1, Qiao Jiang1, Fufei Pang 1and Tingyun Wang1; 1shanghai Univ., China. We have reported flat supercontinuum generation using a ZBLAN fiber pumped by 1.55-μm mode-locked fiber laser. The generated supercontinuum exhibits good spectral flatness with fluctuation of <1.29 dB over the wavelength of 1571.8-1803.1 nm.


Su1B.6 • 09:45 All-optical Phase Shifter and Switch Based on Microfiber Coated with Colloidal Quantum Dots, Li Shen1, Feng Gao2, Lin Gan1, Liang Huo1, Songnian Fu1, Huan Liu1 and Ming Tang1; 1Huazhong Univ. of Science and Technology, China; 2China Jiliang Univ., China. We propose an all-optical phase shifter and switch based on a microfiber coated with colloidal quantum dots, phase shift up to 5.95π is achieved, and the pump-controlled optical switch has an extinction ratio of 13dB.

Su1B.7 • 10:00 Miniaturized Mid-Infrared All-Fiber Laser Passively Q-Switched by Topological Insulator Bi2Se3, Weiwei Li1, Kaijie Wang1, Tuanjie Du1, Jinhai Zou1, Yanhong Li1 and Zhengqian Luo1; 1Xiamen Univ., China. We demonstrate, for the first time, a miniaturized 3 μm Ho3+: ZBLAN all-fiber laser passively Q-switched by topological insulator Bi2Se3. Stable mid-infrared Q-switched pulses at 2920.6 nm were generated at a low threshold of ~70 mW.


Su1C.4 • 09:45 Adaptive flow control scheme based on flow control protocol in Fiber Channel, Xi Guo1 and Liqian Wang1; 1Beijing Univ. of Posts and Telecommunications, China. To improve the transmission performance in FC parallel networks, an adaptive flow control scheme based on FC flow control protocol is proposed. The results show it can reduce total delay and increase throughput.

Su1C.5 • 10:00 Generation and Transmission of SSB- PAM4 Signal with a DSP-free Phase Alignment Scheme, Shaohua An1, Qingming Zhu1, Jingchi Li1 and Yikai Su1; 1Shanghai Jiao Tong Univ., China. A DSP-free phase alignment scheme is proposed and experimentally demonstrated in a 56-Gb/s SSB-PAM4 transmission system. BERs are reduced significantly with the new phase alignment scheme in both the back-to-back case and after 40-km transmission.


Su1D.6 • 09:45 Modified Decision-Directed Carrier Recovery Loop for 16-QAM Signals, Marwa Kazdoghli Lagha1, Pascal Scalart1, Robin Gerzaguet1 and Laurent Bramerie1; 1Univ. of Rennes 1, France. We propose a new modified decision-directed carrier recovery loop suitable for 16-QAM optical transmission systems. Statistical tools (S-curve) and experiments at 11-Gbaud show its benefits compared to the standard decision-directed approach.

Su1D.7 • 10:00 Clock Recovery and Adaptive Equa- lization for 50Gbit/s PAM4 Transmission, Honghang Zhou1, Yan Li1, Chao Gao1, Wei Li1, Xiaobin Hong1 and Jian Wu1; 1Beijing Univ. of Posts and Telecommunications, China. A joint scheme based on T/2- spaced FFE is proposed and experimentally demonstrated to resist against sampling clock offset and linear impairments simultaneously with 50Gbit/s PAM4 transmission.


Su1E. 6 • 09:45 Optical Switching Opportunities In Exa-Scale Supercomputers, Dr. Zhang Hua1, 1Marketing Director of Datacom, LUSTER LightTech Group, China. The next generation supercomputer will be exascale but there are still several challenges such as latency, power consumption etc. The all optical switching can be as one of good candidate technology to resolve those problems. This speech will discuss the potential opportunities of all optical switching in future exascale supercomputers.


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Su1F.6 • 09:45 Integrated broadband mid-infrared polarization insensitive Fourier-Transform spectrometer, Qiankun Liu1, Joan Manel Ramirez1, Vladyslav Vakarin1, Xavier Le Roux1, Carlos Alonso-Ramos1, Jacopo Frigerio2, Andrea Ballabio2, Enrico Talamas Simola2, David Bouville1, Laurent Vivien1, Giovanni Isella2 and Delphine Marris-Morini1; 1C2N/Univ Paris Sud/CNRS, France; 2Politech- nico Milano, Italy. We demonstrate the polarization-insensitive broadb- and operational mid-infrared spatial heterodyne Fourier-Transform spectrometer working beyond 5 µm wavelength. A resolution better than 15cm-1 for both TE/TM polarizations has been demonstrated in an unprecedented bandwidth of 800 cm-1.

Su1F.7 • 10:00 High-Confinement, High-Q Mic- roring Resonators on Silicon Carbide-On-Insulator (SiCOI), Yi Zheng1, Ailun Yi2, Minhao Pu1, Bingdong Chang1, Tiangui You2, Kai Huang2, Xin Ou2 and Haiyan Ou1; 1Technical Univ. of Denmark, Den- mark; 2Shanghai Inst. of Micro- system and Information Technology, Chinese Academy of Sciences, China. We realize silicon carbide- on-insulator platform based on crystalline 4H SiC and demonstrate high confinement SiC resonators with sub-micron waveguide cross- sectional dimension. The obtained Q (57,000) is the highest Q reported for SiC microring resonators.


Su1G.4 • 09:45 Spectral Scrambling for High- security PAM-8 Underwater Visible Light Communication System, Yingjun Zhou1, Jianyang Shi1, Junwen Zhang1 and Nan Chi1, 1Fudan Univ., China. We propose a spectral scrambling scheme to enhance physical layer security for an underwater VLC system which also simplifies the real-value signal generation procedure. A 1.08-Gb/s PAM-8 encrypted data over 1.2m transmission is experimentally demonstrated.

Su1G.5 • 10:00 Comprehensive Study on Parallel Topological Photonic Mixer, Ruoming Li1, Jiming Cao1 and Wangzhe Li1, 1Inst. Of Electronics Chinese Academy Of Scences, China. A comprehensive study including theory and RF performance are presented for improving the understanding of performance limitation and trend of the photonic mixing.


Su1H.3 • 09:45 D-glucose Sensing Fiber Optic D-type Microbiosensor, Aruna Gandhi M S1, Xuanyi Liu1 and Qian Li1; 1Peking Univ., China. The proposed fiber optic D-type Mic- robiosensor achieves 12820 nm/RIU and its resolution of 7.8 × 10-3 RIU. A highly sensitive refractive index sensor is foreseen to have potential applications in cost- effective biological and chemical sensing.

Su1H.4 • 10:00 Wavelength Selection to Predict Crude Protein in Sorghum using PLSR, Nikita Chaturvedi1, Suresh Purini1, Syed Azeemuddin1, M. Kalyana Chakravarthi2 and K. Sarjan Rao2; 1International Inst. of Infor- mation and Technology, Hyderabad, India; 2Sri Venkateswara Veterinary Univ., Tirupati, India. We have applied PLSR on NIRS data of Sorghum to select significant wavelengths for CrudeProtein. Calibra- tion models proposed using single wavelength and a pair give the coefficient of deter-mination as 0.7928 and 0.8334 respectively.


Su1I.4 • 10:00 Synergistic Light Harvesting Enhancement in Organic Solar Cells with Interface Engineering, Jingde Chen, Jianxin Tang; Inst. of Functional Nano & Soft Materials (FUNSOM) Soochow Univ., China. We proposed a nanopatterned ZnO: Al2O3 composite film as an efficient light and charge manipulation layer (LCML) to achieve high- efficiency single-junction OSCs of various material systems. The certified PCEs of 9.69% and 13.03% were achieved for the fullerene blend of PTB7:PC71BM and non- fullerene blend FTAZ: IDIC, respectively.


Su1J.4 • 10:00 Scheduling Strategies for Net- work Link Upgradation with Ultra Low Loss Fibers, Yongcheng Li1, Xiaodong Fu2, Sanjay K Bose2 and Gangxiang Shen1; 1Soochow Univ., China; 2Zhongtian Broadband Technology, China; 3IIT Guwahati, India. In this paper, a path-arc based ILP model and three scheduling strategies for fiber link upgradation are developed. Results demonstrate the efficiency of the proposed strategies.

Tianren Hall, Joint

Su1K.6 • 09:45 Optical Trapping in Bow-tie Shaped Photonic Crystal Nan- obeam Cavities, Yan Gao1 and Yaocheng Shi1; 1Zhejiang Univ., China. We design a single nanoparticle trapping device by using an ultrahigh Q/V bow-tie shaped photonic crystal nanobeam cavity, which can efficiently trapping 3 nm radius nanoparticles with a maximum trapping force of 6.48×10^4 pN/mW.

Su1K.7 • 10:00 Room-temperature Broadband Quantum Memory Network, Xiaoling Pang1, Ailin Yang1 and Xianmin Jin1, 1Shanghai Jiao Tong Univ, China. We present the first hybrid quantum memory enabled network by demonstrating interconnection and simultaneous operation of two types of quantum memories. With complementary capabilities, we demonstrate a substantial step towards scalable photonic quantum information processing.


Invited

Sunday, 28 October



Su1A.6 • 10:15 Ultra-Stable Passively Q-Switched Yb- Doped All-Fiber Laser With a Black Phosphorus Saturable Absorber, Tao Wang1, Xiaoxi Jin1, Hanshuo Wu1, Jiaxin Song1, Jian Wu1 and Pu Zhou1; 1National Univ. of Defense Technology, China. A Yb-doped Q-switched laser was demonstrated based on an electrochemical delamination strategy exfoliation black phosphorus (BP) saturable absorber. The passive Q-switched pulse laser operated at 1064nm stably at least 30 days.


Su1B.8 • 10:15 100km dynamic strain sensing via CP-ΦOTDR, Ji Xiong1, Zinan Wang1, Yue Wu1, Yongxiang Chen1 and Yunjiang Rao1; 1Univ. of Electronic Science and Techn- ology of China, China. In this paper, by combining chirped-pulse ΦOTDR with co-pumping first-order distributed Raman amplification (DRA), the quantitative measurement of dynamic strain is demonstrated with 100 km sensing range and 8.2 m gauge length.


Su1C.6 • 10:15 Uniform Entropy Loading for Precoded DMT Systems in Fading Optical Channel, Xi Chen1, Yizhao Chen1, Ming Tang1, Huibin Zhou1, Jingxian Cui1, Tianhao Tong1, Songnian Fu1 and Deming Liu1; 1Huazhong Univ. of Science and Technology, China. We propose a simple and uniform loading algorithm adopted probabilistic shaping considering FEC and CCDM implementation. The experimental results show that up to 27.83% net data rate enhancement is realized under the NGMI constraint.


Su1D.8• 10:15 Crosstalk Impacts on Homogeneous Weakly-Coupled Multicore Fiber Based IM/DD System, Lin Gan, Jiajun Zhou, Lin Gan1, Jiajun Zhou1, Liang Huo1, Li Shen1, Chen Yang2, Weijun Tong3, Songnian Fu1, Ming Tang1 and Deming Liu1; 1Huazhong Univ. of Science and Technology, China; 2Optical Fiber and Cable Joint Stock Limited Company (YOFC), China; 3Yangtze Optical Fiber and Cable Joint Stock Limited Company (YOFC), China. We numerically discussed crosstalk impacts on homogeneous weakly-coupled multicore fiber based intensity-modulation/direct- detection (IM/DD) systems taking into account mean crosstalk power fluctuation, walk-off between cores, laser frequency offset, and laser linewidth.




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Su1F.8 • 10:15 Scalable 2×2 Multimode Switch for Mode-Multiplexed Silicon Pho- tonics Interconnects, Rubana Bahar Priti1 and Odile Liboiron- Ladouceur1; 1McGill Univ., Canada. A silicon scalable multimode switch (SMS) is demonstrated using MMI couplers and Ti/W thermo-optic phase-shifters. The 2×2 switch exhibits -5.0 dB insertion loss, 19.5 dB crosstalk, and 21 dB switching extinction ratio at 1565 nm.


Su1G.6 • 10:15 Time delay estimation based on the second correlation algorithm and wavelet transformation, Lingwei Yang1, Wei Wei2, Zhang- weiyi Liu1, Xiaocheng Wang1, Nan Deng1 and Yi Dong2; 1Shanghai Jiao Tong Univ., China; 2Beijing Inst. of Technology, China. We propose an algorithm based on the second correlation and the wavelet transformation for time delay estimation in antenna array systems. Exper- iments and simulations are demonstrated to verify the superiority of the proposed algorithm.


Su1H.5 • 10:15 Optical rotation detection for atomic spin precession using a superluminescent diode, Xuejing Liu1, Ming Ding1, Jiancheng Fang1 and Wei Jin1; 1Beihang Univ., China. Optical rotation for atomic precession is detected with a superluminescent diode. The feasibility of the SLD for atomic magne- tometer is studied. The robustness and compactness enables a new way for applications in magneto- encephalography systems.



Tianren Hall, Joint

Su1K.8 • 10:15 Effective Utilization of Trans- ponder in Elastic CD-ROADM Optical Networks with Traffic Grooming, Shengyu Zhang1, Min Zhu1, Qin Sun1, Guixin Li1 and Bin Chen1; 1Southeast Univ., China. In this study, we propose a traffic grooming strategy to optimize the configuration of CD-ROADMs, while considering both of the inter-node spectrum contention and the intra-node TP contention in flex-grid optical networks.

10:30-12:00 Coffee Break, Poster Session and Posterdeadline Session, Corridor, 4F


Sunday, 28 October


Poster Session

Su2A.1 Half-Open Cavity Multi-Wavelength Random Fiber Laser with Superimposed Fiber Bragg Gratings as One Reflector, Mingming Wang1, Ting Feng1, Weidong Lai1, Meili Jiang1, Xiaosong Ma1 and X. Steve Yao1, 1Hebei Univ., China. A high stability half-open cavity multi-wavelength random fiber laser using distributed Rayleigh scattering feedback in a 2 km SMF-28 fiber together with sextuple superimposed fiber Bragg gratings is demonstrated experimentally for the first time.

Su2A.2 On-line Monitoring Study for High Voltage GIS HF Gas by Flange-type Optical Fiber Sensing, Shiling Zhang1, 1State Grid Chongqing Electric Power Company Chongqing Electric Power Re- search Inst., China. This paper puts forward a kind of semiconductor laser based gas detection (TDLAS) technology.The experiment shows the flange fiber optic sensor on-line monitoring device can realize the effective measurement of HF gas.

Su2A.3 Fabrication and characterization of an S-Tapered fiber-based refractive index sensor, Guanjun Wang1, Mengxing Huang1, Meiqin Zahang2 and Jinrong Liu2, 1Hainan Univ., China; 2North Univ. of China, China. A highly reliable reflective layer is formed by cutting a conventional S-tapered fiber and coating its ends with a gold film. And the reflection spectrum and sensing characteristics of this structure are measured under different refractive indices (RI) and temperatures. Experimental results show that this S-tapered fiber probe structure has a maximum refractive index (RI) sensitivity of 1441nm/refractive index unit (RIU) in the RI range of 1.336~1.340 and a temperature sensitivity of about 0.7537nm/℃.

Su2A.4 Cr4+:YAG passively Q-switched Nd:Gd- YNbO4 laser, Zhenfang Peng1, Yufei Ma1, Haiyue Sun1, Shoujun Ding2, Fang Peng2, Xin Yu1 and Qingli Zhang2, 1Harbin Inst. of Technology, China; 2Chinese Academy of Sciences, China. The continue-wave and passively Q-switched 1066 nm laser with Nd: GdYNbO4 mixed crystal was demonstrated. The maximum peak power was 3.7 kW with the pulse width of 7.2 ns and the repetition rate of 19 kHz.

Su2A.5 Non-invasive smart monitoring system based on multi-core fiber optic interferometers, Shuyang Chen1, Fengze Tan1, Zhenyu Huang1, Tianyu Yang1, Jiajing Tu1 and Changyuan Yu1, 1The Hong Kong Polytechnic Univ., Hong Kong. A smart monitoring system based on multi-core fiber interferometers is presented. Three body activities: on the bed, off the bed and body movement, can be identified and respiration of the user can also be obtained.

Su2A.6 Performance Analysis of Modulation Schemes in the SPAD-based Visible Light Communications, Yawei Ji1 and Guofeng Wu1, 1National Digital Switching System Engineering and Technological Research Center, China. The schematic diagram of the optical cavity design has been introduced in detail, meanwhile, the principle of measuring the gas concentration with optical resonator is also introduced.

Su2A.7 Research on Long Distance Transm- ission and High Temperature Performance of Distributed Feedback Fiber Laser Geophone Array, Yuanyuan Yang1, Zhihui Sun1, Zhiqiang Song1, Xiaohui Liu1, Ming Li1 and Jian Guo1, 1Laser Inst., Qilu Univ. of Tech. (Shandong Academy of Sciences). China. A two-stage 3-component geophone array based on DFB-FL is presented, which can realize a long distance transmission and meet the requirement of high temperature environment under deep wells for oil detection.

Su2A.8 All-Optical Temporal Differentiator Ba- sed on a Gain-Saturated DFB-SOA, Ye Deng1, Hui Gao1, Bin Li1, Jinping Zhang1 and Zhipeng Zhou1, 1Nanjing Research Inst. of Electronics Technology, China. A novel optical temporal differentiator based on a gain-saturated DFB-SOA is proposed and experimentally demonstrated. The experimental results show that the gain-saturated DFB-SOA can achieve temporal differentiation of an input optical signal.

Su2A.9 Nonuniform QAM GFDM RoF system based on probabilistic shaping with Huffman code, Jianxin Ren1, Bo Liu2, Lijia Zhang1, Qi Zhang1, Qinghua Tian1, Feng Tian1, Xiangjun Xin1, Lilong Zhao2 and Tingting Sun2, 1Beijing Univ. of Posts and Telecommunications, China; 2Nanjing Univ. of Information Science and Technology, China. A novel optical temporal differentiator based on a gain-saturated DFB-SOA is proposed and experimentally demonstrated. The experimental results show that the gain-saturated DFB-SOA can achieve temporal differentiation of an input optical signal.

Su2A.10 Polarization-independent focusing reflectors based on subwavelength gratings, Shuo Wang1, Xiaofeng Duan1, Kai Liu1, Yongqing Huang1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecommunications, China. We have designed a reflector based on the hexagonal lattice of circular two-dimensional subwavelength gratings at wavelength 1550nm.It can be applied in mushroommesa photodetector to increase bandwidth as well as efficiency simultaneously.

Su2A.11 Design and Simulation of an Optical Beam Deflector based on Liquid Crystal and Blazed Grating, Nan Lin1, Ying Hong Xue1, Yue Ping Niu1, Xiao Qian Wang1 and Shang Qing Gong1, 1East China Univ. of Science and Technology, China. A reflection-type deflector combining liquid crystal and blazed grating is presented. A deflection angle of 24.2°can be obtained by choosing appropriate parameters of the grating and incident angle.

Su2A.12 Experimental study of high-power 1-MHz, 1.2-ns pulsed Yb fiber laser using gain-switching, Lijuan She1, Yadong Deng1, Yan Zhou1, Daru Chen1, Zhangwei Yu1 and Zexuan Qiang1, 1Zhejiang Normal Univ., China. We propose a compact high-power, ~1ns, MHz pulsed ytterbium laser for micromachining using gain-switching and master oscillator power amplifier (MOPA) technique. We preliminary obtained a 1.2-ns, 1-MHz, 49-mW average single-mode output power before MOPA.

Su2A.13 Water vapor sensing based on small-gap quartz tuning fork enhanced photoacoustic spectroscopy, Yao Tong1, Yufei Ma1, Ying He1, Jinhu Long1, Yuan Gao1 and Xin Yu1, 1Harbin Inst. of Technology, China. A high sensitive QEP- AS sensor based on a custom quartz tuning fork with a small-gap of 200 μm was demonstrated. The H2O-QEPAS sensor was optimized theoretically and achieved a minimum detection limit of 1.3 ppm.

Su2A.14 Optical Fiber Pressure Sensor Based on SMF-Capillary Structure, Yubang Yang1, Dongning Wang1 and Ben Xu1, 1China Jiliang Univ., China. We propose and demonstrate a fiber-optic pressure sensor based on the SMF-Capillary structure with a pressure sensitivity of -4.076 nm/MPa. It has the characteristics of co- nvenient manufacturing and strong robustness.

Su2A.15 Yb-doped Triple-Cladding Laser Fiber Fabricated by Chelate Precursor Doping Technique, Shuang Liu1, Huan Zhan1, Kun Peng1, Shihao Sun1, Yuwei Li1, Jiangli Jiang1, Li Ni1, Xiaolong Wang1, Jianjun Wang1, Feng Jing1 and Aoxiang Lin1, 1China Academy of Engineering Ph- ysics, China. We fabricated an Yb-doped triple-cladding fiber with an aluminophosphosilicate core, F300-pump cladding and low-refractive-index fluorine-doped silica cladding. The fiber-based oscillator laser cavity presented 560W laser output at 1079.6nm with slope efficiency of 68.7%.

Su2A.16 Photonic generation of microwave frequency shift keying signals based on dual parallel Mach-Zehnder modulator structure, Guodong Wang1, Shanghong Zhao1, Kun Zhang1 and Tao Lin1, 1Air Force Engineering Univ., China. We proposed a novel scheme to generate microwave frequency shift keying (FSK) signals based on dual parallel Mach-Zehnder modulator structure.FSK signals were obtained which can meet the requirement of high-frequency applications.

Su2A.17 Wide Range and High Resolution True Time Delay Unit for Phased Array Antenna, Mengsha Duan1 and Jianxin Ma1, 1Beijing Univ. of Posts and Telecommunications, China. The OTTD beamforming system using the cascaded second order time delay lines with wavelength converter improve the scanning range of ±69.7º and resolution of 1º greatly reduced number and length of the time delay lines.

Su2A.18 Avalache multiplication in Schottky-type AlGaN photodiode with high Al-composition, Huan Yan1, Changshan Liu1, Hailong Wang1, Zhenhua Zhang1, Meng Chen1 and Hao Jiang1, 1Sun Yat-sen Univ., China. Shottky–type AlGaN solar-blind avalanche photodiodes have been fabricated and characterized under front and back illuminated conditions. Impact ionization coefficient for electrons is larger than that for holes as derived from the photocurrent curves.

Su2A.19 Broadband transmissive quarter-wave plate using double-layer metallic structures, Zhiwei Li1, Chengde Zhu1, Hao Xu1, Lu Wang1, Jin Liu1 and Jiaming Hao1, 1Shanghai Univ. of Engineering Science, China. A transmissive metamaterial quarter-wave plate with the thickness of sub-wavelength are investigated. The simulation results show that broadband, high conversion efficiency quarter-wave plate is achieved. Our design provides an alternative approach for manipulating light propagation.


10:30-12:30 Su2A • Poster Session

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Poster Session

Su2A.20 Fiber Bragg grating temperature sensors applied in harsh environment of aerospace, Tao Liao1, Yifei Pei2, Jian Xu3, Heng Lin3 and Tigang Ning3 , 1Beijing Inst. of Spacecraft Environment Engineering, China; 2Tianjin Univ., China; 3Beijing Jiaotong Univ., China. A new type of FBG temperature sensor for aerospace application.We mixed quartz powder and modified resin as fillers in the package. Experiments show the sensor has faster response speed and temperature resolution of 0.095 °C.

Su2A.21 Light Coupling Methods between Sin- gle-Mode Fiber and Embedded-Dual-Core Hollow Optical Fiber, Peixuan Tian1, Peng Ye1, Zheng Zhu1, Jinhui Shi1, Jun Yang1 and Chunying Guan1, 1Harbin Engineering Univ., China. Two methods have been proposed to equally couple the optical power of a single mode fiber (SMF) into the two cores of an embedded-dual-core hollow optical fiber (EDCHOF).

Su2A.22 A Novel Approach to Photonic Generation of Microwave Hybrid FSK/PSK signal, Kun Zhang1, Shanghong Zhao1, Xuan Li1, Zihang Zhu1, Tao Lin1 and Guodong Wang1, 1Air Force Engineering Univ., China. A novel approach to photonic generation of Microwave hybrid frequency/phase shift keying (FSK/PSK) signal is proposed and demonstrated. After photo-detection, a hybrid FSK/PSK signal can be obtained. Simulations are conducted to verify the proposed scheme.

Su2A.23 High bandwidth silicon Mach-Zehnder modulator based on interleaved PN junctions, Zhipeng Hu1, Li Jin1, Jin Guo1 and Junbo Feng1, 1No.38 Research Inst. of China Electronics Technology Group Corporation, China. We experimentally demonstrate a silicon Mach- Zehnder modulator based on interleaved PN junctions. A 3dB EO bandwidth of 34 GHz and modulation speed up to 50 Gbps with 5.6 dB extinction ratio were experimentally demonstrated.

Su2A.24 Polarization Beam Splitter for Silicon-based Cross-slot Waveguides Using an Asymmetrical Evanescent Coupling System, Shengbao Wu1, Ting Feng1, Xichen Wang1 and X.Steve Yao1,2, 1Hebei Univ., China; 2General Photonics Corpor- ation, China. A compact polarization beam splitter for the silicon-based cross-slot waveguides（CSWs） is proposed by utilizing a cascaded asymmetrical evanescent coupling system composed of two CSWs and a horizontal slot waveguide between them.

Su2A.25 Design of Helical Tube Fiber Optic Fabry-Perot Cavity Pressure Sensor, Qingchao Zhao1, Hui Li1, Long Ma1, Xiaohui Liu1, Faxiang Zhang1 and Wenan Zhao1, 1Laser Inst. of Shandong Academy of Sciences, Qilu Univ. of Technology(Shandong Academy of Sciences), China. An optical fiber helical tube pressure sensor based on Fabry-Perot cavity which is fabricated by CO2 laser thermal bonding technique is developed. The range is 0~72MPa, repeatability is 0.02% F·S and hysteresis is 0.02% F·S.

Su2A.26 Spectral tailoring of random fiber laser utilizing multimode fiber, Qingyang Meng1, Han Wu1, Bing Han1, Jiaqi Li1 and Zinan Wang1, 1Univ. of Science and Technology of China, China. In this paper, by varying the length of MMF, either single wavelength random lasing with specific wavelength or multiwavelength random lasing with selective wavelength spacing can be generated in MMIF-FLM based RFL.

Su2A.27 Experiment and Numerical Simulation of p-i-n Photodetectors Integrated with Different Reflectors, Jing Chen1, Yongqing Huang1, Tao Liu1, Xiaofeng Duan1, Kai Liu1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecommunications, China. Different reflector-integrated p-i-n photodetectors are fabricated and characterized. The optimal thickness of the absorption layer of the integrated device is obtained by simulation. Compared with experimental results, the reliability of the simulation is demonstrated.

Su2A.28 Analysis of Transmission Characteristics of Multi-mode Optical Fiber Endcap, Ming-Yang Chen1, Ping He1 and Peng Su1, 1Jiangsu Univ., Chiina. Transmission characteristics of light in multi-mode optical fiber endcap are investigated. The splicing angle and position deviation play strong impact on the transmission loss and the light spot. Su2A.29 Passively erbium-doped mode-locked fiber laser based on SnSe2 nanosheets, Jinjian Li1, Shuoshuo Zhang1, Zhidong Bai1, Ziwen Jia1, Zhongsheng Man1 and Shenggui Fu1, 1Shandong Univ. of Technology, China. A passively erbium- m-doped mode-locked fiber laser (EDFL) based on SnSe2 nanosheets saturable absorber (SA) was reported whose central wavelength, 3dB bandwidth, pulse duration and average output power are 1563.4nm, 2.9nm, 276ps and 14.74mw respectively.

Su2A.30 Highly Coherent and Octave-Spanning Supercontinuum and Frequency Comb Generation in Germanium Waveguide with All-Normal Dispersion, Ziwen Huang1, Jinhui Yuan1, Chao Mei1, Zhe Kang2, Xinzhu Sang1, Binbin Yan1, Kuiru Wang1 and Chongxiu Yu1, 1Beijing Univ. of Posts and Telecommunications, China; 2The Hong Kong Polytechnic Univ., China. We design a germanium T-shape waveguide with all-normal dispersion profile. When pump pulses at 3 μm are used, highly coherent and octave-spanning supercontinuum (SC) is generated. The performance of SC-based frequency comb is also investigated. Su2A.31 Displacement Sensor based on a Ma- crobending Plastic Optical Fiber with V-grooves Structure, Chuanxin Teng1, Shijie Deng1, Hongchang Deng1, Houquan Liu1, Hongyan Yang1 and Libo Yuan1, 1Guilin Univ. of Electronic Technology, China. A macrobending POF with V-grooves structure was presented for displacement sensing. The V-grooves structure of the POF was fabricated by a die-pr- ess-print method. The influence of the structural parameters on the sensing performance were studied.

Su2A.32 A combinding PAPR reduction method for DCO-OFDM UOWC, Jurong Bai1, Hang Dai1 and Yi Yang1, 1Xi'an Univ. of Posts and Telecommunications, China. Optical orthogonal frequency division multiplexing (OFDM) has been adopted in underwater optical wireless communication (UOWC) system. In this paper, an SLM method is combined with μ-law companding method to reduce the PAPR by 6.8dB.

Su2A.33 Research on polarization mode dispersion measurement system based on singular value decomposition denoising, Yalei Chu1, Yang'An Zhang1, Xueguang Yuan1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecomm- unications, China. This paper presents a new method for determining the valid order of singular value decomposition (SVD). We apply SVD denoising algorithm to polarization mode dispersion measurement. Experimental results show that the measurement accuracy was improved obviously.

Su2A.34 Temporal Soliton Compression in Silica Clad Silicon Photonic Crystal Waveguides with Wideband Low Dispersion, Jiali Liao1, Yang Gao2, Yanling Sun1, Lin Ma1 and Zhenzhong Lu, 1Xidian Univ., China; 2Xi'an Research Inst. of Hi.-Tech, China. We demonstrate the temporal soliton compression in low dispersion silica clad silicon photonic crystal waveguides. The compression ratios are 5.0, 3.8 and 4.9 for the three considered wavelengths respectively, with pulse energy less than 20pJ.

Su2A.35 Nondestructive Measurement of Polarization Characteristics of Fiber-Pigtailed Waveguide- type Ring Resonators, Yi Lin1, Hanzhao Li1, Jianjie Zhang1, Huilian Ma1 and Zhonghe Jin1, 1Zhejiang Univ., China. The polarization analysis model of the waveguide-type ring resonator (WRR) is built and four misaligned angles can be obtained without destruction. The polarization extinction ratio improvement of the lightwave out from the WRR is analyzed.

Su2A.36 Temperature-compensated methane sensor with high sensitivity based on directional coupling in photonic crystal fibers, Qing Wang1, Haoran Wang1, Hai Liu1, Cancan Chen1, Wen Zhang1 and Yi Ding1, 1China Univ. of Mining and Technology, China. A temperature-compensated methane sensor with high sensitivity based on magnetic fluids infiltrated photonic crystal fiber is proposed. The methane concentration sensitivity is 20.07nm/% with a good linearity of 0.99999.

Su2A.37 Ship Targets Detection Based on Visual Attention, Guiming Shi1 and Jidong Suo1, 1Dalian Maritime Univ., China. The ship detection algorithm based on improved visual attention model is proposed. The frequency features are extracted by using wavelet. The orientation and edge-texture features are obtained by using the Gabor filter and the DMT.

Su2A.38 Increasing Communication Path Diversity in Mesh-Based ONoC by Using Multi-Interface Processing Cores, Xinglong Diao1, Hui Li1, Wei Tan1 and Huaxi Gu1, 1Xidian Univ., China. This paper considers multi-interface processing core to increase path diversity in ONoC. Routing strategy, switching mechanism, network interface and optical router architecture are also designed to support the multi-interface ONoC.

Su2A.39 Wide Bandwidth Reconfigurable and Frequency Tunable Microwave Photonic Filter Based on Tunable Ultra-sharp Roll-off Optical Filter, Ding Zhidan1, Zhao Jiejun1, Yang Fei1, Feng Zitong1, Lu Bin1 and Cai Haiwen1, 1Shanghai Inst. of Optics and Fine Mechanics，Chinese Academy of Sciences, China. A novel microwave photonic filter with above a dozen of GHz bandwidth reconfigurable and frequency tunable range is proposed. The proposed MPF is also precise reconfigurable with dozens of MHz resolution.


Sunday, 28 October


Poster Session

Su2A.40 Real-time decoding for fNIRS-based Brain Computer Interface using adaptive Gaussian mixture model classifier and Kalman estimator, Yao Zhang1, Bingyuan Wang1 and Feng Gao1, 1Tianjin Univ., China. We investigate a real-time analysis of NIRS data by using an unsupervised Gaussian mixture model adaptive classifier for a framework consisting of the general linear model and the Kalman estimator to improve decoding accuracy.

Su2A.41 Crosstalk-aware Routing, Spectrum, and Core Assignment in Space division multiplexing Networks with Bi-directional Multi-core Fibers, Yidong Chen1, Weiguo Ju2, Shan Yin1, Shijia Guo1, Yuan Yuan2 and Shanguo Huang1, 1Beijing Univ. of Posts and Telecommunications, China; 2China Information Consulting&Designing Inst. CO, China. We propose a cross-talk-aware routing, spectrum and core allocation algorithm for Bi-directional Multi-core Fiber. Simulation results show that proposed algorithm can reduce blocking probability and improve resource utilization.

Su2A.42 Ultralow Loss Waveguide Crossing with Low Imbalance for Two Transverse Electric Modes, Beibei Wu1, Yu Yu1 and Xinliang Zhang1, 1Huazhong Univ. of Science and Technology, China. We propose an ultra-low loss waveguide crossing using a combination of strip and rib waveguides in the multimode-interference coupler region to reduce the imbalance for two transverse electric modes.

Su2A.43 High power nanosecond pulse ytterbium doped fiber laser based on semiconductor laser modulation technology, Wen Yao1,2, Zhang Fan1 and Zhang Xinhai1, 1Southern Univ. of Science and Technology, China; 2Harbin Inst. of Technology, China. A high power nanosecond pulsed Yb doped laser based on semiconductor laser modulation technology and MOPA is designed. The output 190W is finally output, and no obvious amplification spontaneous em- ssion phenomenon appears in the spectrum.

Su2A.44 Adaptive Kalman Filter for Extreme Polarization Effects Equalization in Coherent Optical Communication Syst- em, Liyuan Qiu1, Zibo Zheng1, Xiaoguang Zhang1, Nan Cui1, Lixia Xi1 and Wenbo Zhang1, 1Beijing Univ. of Posts and Telecommunications, China. This paper proposes an adaptive initialization way of estimating noise statistics for the Kalman filter, with which the extreme polarization impairments of PDM-QPSK signals in fiber can be equalized in a better robust manner.

Su2A.45 Analysis of the Designing of the Pilot Preambles Based on the Using of Different Prototype Filter for CO-OFDM/OQAM Systems, Lei Zhang1, Zhufeng Suo1, Cheng Zhao1, Xi Fang1, Jianxin Wang1 and Xianwei Gao1, 1Beijing Electronic Science and Technology Inst., China. In this paper, we analyzed the designing of the pilot preambles based on the using of different prototype filter for CO-OFDM/OQAM systems. Our methods have been validated by both theoretical analysis and simulation results.

Su2A.46 A Novel Photonic Phase Shifter Based on Polarization Controller and Dual-parallel Mach-Zehender Modulator, Conghui Zhang1, Xinjing Qiu1, Xiaoyu Zhang1, Yongfeng Wei1 and Xinlu Gao2, 1Inner Mongolia Univ., China; 2Beijing Univ. of Posts and Telecommunications, China. A broadband photonic phase shifter based on a dual-parallel Mach-Zehender modulator (DPMZM) and a polarization controller (PC) is presented and demonstrated. Full 360-degree phase tuning in a large bandwidth from 2 to 30GHz is realized.

Su2A.47 High power budget coherent free space optical communication system based on fiber laser phased array, Silin Chen1, Zhiguo Zhang1 and Shanyong Cai1, 1state key lab of information phtonics and optical communications, BUPT, China. In order to suppress the atmospheric turbulence, we introduced the fiber laser phased array transmitter in QPSK modulated coherent free space optical communication system. The bit error rate performance is given in this paper.

Su2A.48 Symmetrical Back-to-Back Zero-Bias Operational Uni-Traveling Carrier Photodiode, Tao Liu1, Yongqing Huang1, Xiaokai Ma1, Kai Liu1, Xiaofeng Duan1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecommunications, China. A novel symmetrical back-to-back zero-bias operational uni-traveling carrier photodiode structure (S-BTB-UTC-PD) is proposed. Both the bandwidth and output power of the S-BTB-UTC-PD is significantly improved, compared with the traditional back-to-back UTC-PD under the same conditions.

Su2A.49 Fiber biosensor exploiting the microfiber light polarization modulation, Rende Ma1, Luxue Wan1, Yue Pan1 and Yunjie Xia1, 1Qufu Normal Univ., China. A fiber biosensor is demonstrated exploiting the microfiber light polarization modulation induced by the self-assembly of carboxylated magnetic nanoparticles. The microfiber surface does not need chemical modification, while only an external magnetic field is utilized.

Su2A.50 Indoor Positioning System Based on Single LED Using Symmetrical Optical Receiver, Xiaohui Yu1, Jianping Wang1 and Huimin Lu1, 1Univ. of Science and Technology, China. We propose a single-LED based VLP system using a novel receiver, which can resist reflections and is practical. Based on RSS, the high accuracy positioning can be achieved of low costs and low complexity.

Su2A.51 Low Cost PAM4-TDM-PON Upstream Scheme Based on Electrical Nyquist Pulse Shaping and Heterodyne Coherent Detection, Bingchang Hua1, Cheng Ju2, Zhiguo Zhang1, Qi Guo1 and Xingang Huang3, 1Beijing Univ. of Posts and Telecommunications, China; 2Qingdao Univ., China; 3Zhongxing Telecommunication Equip- ment Corporation, China. We introduced a low cost PAM4-TD-M-PON upstream scheme based on electrical Nyquist pulse shaping and heterodyne coherent detection. This scheme provides a 28.1dB power loss budget for ODN requirement without any amplification.

Su2A.52 Pesudo Pilot Power Optimization Based Pilot Design Criterion for Optical OFDM/OQAM, Xi Fang1, Yueyang Yu1 and Cheng Zhao1, 1Beijing Electronic Science and Technology Inst., China. In this paper, we proposed to use three loaded OF-DM/OQAM pilot blocks to perform channel estimation for optical OFDM/OQAM. We theoretically deduced optimal pilot structure for this method and validated its advantage with simulation result.

Su2A.53 Poly Phase Network for Polarizat- ion-Division-Multiplexed Optical OFD- M/OQAM, Xi Fang1, Yueyang Yu1 and Cheng Zhao1, 1Beijing Electronic Science and Technology Inst., China. In this paper, we introduced poly phase network based implementation method for PDM OFD- M/OQAM for the first time. System comp- lexities could be decreased evidently with the using of the proposed method.

Su2A.54 Dynamic Bandwidth Scheduling Algo- rithm for Space Applications in FC-AE-1553 Switching Network, Yue He1, Liqian Wang1, Yueying Zhan2, Suzhi Cao2 and Xiao Luo1, 1Beijing Univ. of Posts and Telecommunications, China; 2Chinese Academy of Science, China. To improve the aerospace network transmission performance, a dynamic bandwidth scheduling method is proposed for burst traffic in a FC-AE-1553 switching network. The network throughput and burst traffic average delay are simulated and analyzed.

Su2A.55 Radio-Frequency Transfer over a 1007-km Fiber Link by Passive Phase Conjugation, Fan Hu1, Chenxia Liu1, Dongxing Wang1, Jingxi Liang1, Shujin Zhou1, Yaojun Qiao1 and Song Yu1, 1Beijing Univ. of Posts and Telecommunications, China. We have demonstrated accurate frequency transfer via a 1007-km fiber link by passive phase conjugation. The transfer stability of our experiment with 2.4 GHz frequency signal is 6.9 × 10^-14/s and 4.1 × 10^-16/10^4s.

Su2A.56 Low-Complexity Time Domain Equalizer for Multicarrier Offset-QAM Systems, Zhennan Zheng1, He Zhu1, Mutong Xie1, Mingzheng Lei1, Xinlu Gao1 and Shanguo Huang1, 1Beijing Univ. of Posts and Telecommunications, China. We propose the scheme of data-aided time-domain equalizer for offset-QAM systems. Compared with traditional equalizer, the proposed method has low complexity. Simulation results show that proposed scheme achieve the same BER performance against channel distortions.

Su2A.57 Macro-bending Losses of Circular Ph- otonic Crystal Fiber Supporting 14 OAM Modes, Xiangsen Jiao1, Hu Zhang1, Hui Li1, Xiaoguang Zhang1, Lixia Xi1 and Zhuo Zhang2, 1Bejing Univ. of Posts and Telecommunications, China; 2Inst. of Elec- tronics, Chinese Academy of Sciences, China. This paper built a model to calculate macrobending losses of the circular photonic crystal fiber (C-PCF) supporting orbital angular momentum (OAM) modes, analyzed the loss characteristics and concluded that C-PCFs possess an excellent bending resistance.

Su2A.58 All-Optical Two-Bit Magnitude Compa- rator Using Quantum-Dot Semiconductor Optical Amplifier, Kosuke Komatsu1, Gou Hosoya1 and Hiroyuki Yashima1, 1Tokyo Univ. of Science, Japan. We construct three types of an all-optical comparator by cascading logic gates using quantum-dot semiconductor optical amplifiers. By conducting numerical simulations, we investigate and evaluate the performance of the devices.

Su2A.59 Er-doped random fiber laser based on the injection locking technology, Bo Hu1, Weili Zhang1 and Yunjiang Rao1, 1Univ. of Electronic Science & Technology of China, China. We demonstrate for the first time stabilization and regulation of a coherent random lasing system, i.e., an Erbium doped random fiber laser with disordered array of fiber Bragg gratings (FBGs) based on injection locking technology.


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Poster Session

Su2A.60 Enhanced efficiency of graphene/GaAs nanowire solar cell by chemical doping, Yanbin Luo1, Xin Yan1, Xia Zhang1, Qichao Lu1, Bang Li1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecommunications, China. Here, we demonstrate that chemical doping is of crucial importance to reach high efficiencies of the graphene/single GaAs nanowire solar cells, and presents a high efficiency of 15.88%.

Su2A.61 Study on Polarization Rotator Based on Photonic Crystal Fiber with Double Hole Unit Cell, Chenglong Xie1, Zejun Zhang1, Yasuhide Tsuji2, Eguchi Masashi3, Chun-Ping Chen1 and Tesuo Anada1, 1Kanagawa Univ., Japan; 2Muroran Inst. of Technology, Japan; 3Chitose Inst. of Science and Technology, Japan. In this study, a polarization rotator (PR) with a simple structure distribution based on square lattice photonic crystal fiber (PCF) has been proposed.

Su2A.62 Insulator String Leakage Current Sensor Based on Fiber Bragg Grating, Zhehao Yan1, Zhiguo Zhang1, Luming Li2, Tong Zhai1, Renzhong Guo3 and Chenying Jiang3, 1Bejing Univ. of Posts and Telecommunications, China; 2Jiangxi Electric Power Company, China; 3Jiujiang Electric Power Supply Company, China. A novel insulator string leakage current-monitoring sensor based on a fiber Bragg grating, cantilever beam, and spiral coil is demonstrated. The sensor is suitable for insulator string flashover warning.

Su2A.63 An Optical Fiber Bragg Grating Temperature Sensor using Microwave Photonic Filtering Technique, Mengmeng Peng1, Fei Wang1, Lun Shi1, Jingxin Huang1 and Wen Kang1, 1Chongqing Univ. of Technology, China. An optical fiber Bragg grating (FBG) temperature sensor based on microwave photonic filtering technique is proposed and demonstrated, which features a high sensitivity temperature sensing with a sensitivity of 1.7641 GHz/°C.

Su2A.64 Design of An Improved Radially Sing- le-Mode and Azimuthally Multimode Ring-Core Fiber for Mode-Division Multiplexing Systems, Jiawei Han1, Yupeng Li1 and Jie Zhang2, 1Tianjin Normal Univ., China; 2BUPT, China. We report the design of a radially single-mode and azimuthally multimode ring-core fiber, according to the design criteria of weakly-coupled few-mode fibers in [1]. The influences of index profiles on its propagation-characteristics are numerically analyzed.

Su2A.65 Data center optical interconnection based on IRZ-DPSK signal, Xijie Wang1, Yang Lu1, Meihua Bi1 and Guixing Huang1, 1Hangzhou Dianzi Univ., China. The expansion of optical data centers will lead to insufficient wavelength resources. This paper proposes a wavelength-reused scheme. Two signals are imposed on the same optical carrier to reduce the number of wavelengths by half.

Su2A.66 Silica nanofiber bandgap filters for the multiplexing of high sensitivity photonic crystal cavity sensors array, Xin Chen1, Daquan Yang1, Lingyu Liu2, Xuan Zhang1 and Yuefeng Ji1, 1BUPT, China, 2The Information and Communication Company of State Grid Jilin Electric Power Company Limited, China. We proposed a novel design of refractive index sensor array based on high sensitivity (663.8 nm/RIU) 1D photonic crystal nanofiber cavity, which can support 7-channel sensing multiplexing meantime.

Su2A.67 Mode analysis for circular-side square microcavity lasers with a center hole, Yue-De Yang1, Hai-Zhong Weng1, You-Zeng Hao1, Jin-Long Xiao1 and Yong-Zhen Huang1, 1Inst. of Semiconductors, Chinese Academy of Sciences, China. We have demonstrated circular-side square microcavity lasers with a center hole to control the lasing modes. Dual-transverse-mode lasing with wavelength intervals ranging from 1 to 4.4 nm is realized experimentally for the 16μm-side-length square microlasers.

Su2A.68 Demonstration of Point-to-Multipoint Trans- mission for Free-Space Optical Communication Networks, Hexin Jiang1, Zhaoxin Yu1, Xianglian Feng1 and Shiming Gao1, 1Zhejiang Univ., China. A scheme of the point-to-multipoint forward relaying node for free-space optical (FSO) communication networks is proposed and experimentally demonstrated based on wavelength- division multiplexing technology. Its potential in long-distance FSO networks is numerically predicted.

Su2A.69 Oil classification research by a hyperspectral Scheimpflug lidar system, Kun Chen1 and Chunsheng Yan1, 1Zhejiang Univ., China. A Scheimpflug lidar system is built for remotely detecting the hyperspectrum of oil. Eight samples are perfectly distinguished using KNN and SVM algorithms.

Su2A.70 Pipe Line Safety Monitoring using Dis- tributed Optical Fiber Vibration Sensor inthe China West-East Gas Pipeline Project, Gang Li1, Jianxin Zhu1, Ruoyu Sun2, Xiaohui Lin1, Wenming Yang1, Kehong Zeng1, Fei Wang1, Chunguang Wang3 and Bin Zhou4, 1China Petroleum Pipeline Telecom & Electricity Engineering Co.,Ltd, China; 2Tianjin Univ., China; 3China Petroleum West-East gas pipeline company, China; 4South China Normal Univ., China. The current status of the optical fiber vibration sensing applied in the West-East Gas Pipeline project is introduced. A fast filter and a machine learning algorithm is used to distinguish the causes of vibration.

Su2A.71 An integrated optical neural network chip based on Mach-Zehnder interferometers, Xu Zhao1, Zhenming Yu1, Benlin Liu1, Yu Li1, Hongwei Chen1 and Minghua Chen1, 1Tsinghua Univ., China. We propose an integrated optical neural network chip based on Mach-Zehnder interferometers, which can replace analog to digital conversion device and solve energy consumption problems in large-scale fiber-optic communication systems.

Su2A.72 Reconfigurable 3D Mode (De) Multiplexer Based on Triple-Waveguide Coupler with Epsilon-Near-Zero Indium Tin Oxide, Weifeng Jiang1, Hongmei Dong1 and Rizhao Liu1, 1Nanjing Univ. of Posts and Telecommunications, China. A reconfigurable three-dimensional mode (De) MUX is proposed via a triple-silicon-waveguide coupler with epsilon-near-zero ITO. The optimized mode (De) MUX is with the mode crosstalk of -20.3 dB (-9.2 dB) at “OFF” (“ON”) state, respectively.

Su2A.73 Tunable Fiber Laser for On-demand Mode in C and L Bands, Bingfeng Dang1, Song Yu1 and Junhui Li1, 1State Key Laboratory of Information Photonics and Optical Communication，BUPT, China. A tunable C & L band fiber laser covering 1520 to 1610 nm, less than 0.09 dB power fluctuation, is proposed. Ability to generate arbitrary Laguerre/Hermite Gaussian mode with 90% correlation coefficient is demonstrated.

Su2A.74 Statistical Distribution and Correlation Properties of Intercore Crosstalk in Weakly-Coupled MCFs, Tiago Alves1, Ricardo Soeiro1 and Adolfo Cartaxo1, 1Instituto de Telecomunicações, Portugal. We show experimentally that the intercore crosstalk (ICXT) power induced by multiple interferers in weakly-coupled multicore fibers is well modeled by a chi-square distribution with four degrees of freedom and by uncorrelated ICXT field components.

Su2A.75 Dependence of the Intercore Crosstalk Decorrelation Bandwidth on the Skew in Weakly-Coupled Multicore Fibers with Multiple Interferers, Tiago Alves1 and Adolfo Cartaxo1, 1Instituto de Telecomunicações, Portugal. We investigate the equivalent autocovariance of the intercore crosstalk (ICXT) in multicore fibers with multiple interferers. We show that the decorrelation bandwidth of the ICXT is proportional to the inverse of the skew between cores.

Su2A.76 Frequency Compensation Range Amplification for the Stabilized Optoelectronic Oscillator, Jian Dai1, Yao Zeng1 and Anni Liu1, 1Beijing Univ. of Posts and Telecommunications, China. A stabilization scheme to improve the frequency-drift compensation range for the optoelectronic oscillator has been proposed. The frequency compensation range for the 10 GHz optoelectronic oscillator can be enlarged more than 3 times.

Su2A.77 Hybrid Probabilistic-Geometric-Shaped 8-PAM Suitable for Data Centers’ Communication, Xiao Han1, Mingwei Yang1 and Ivan B. Djordjevic1, 1Univ. of Arizona, United States. We propose a hybrid probabilistic-geometric-shaped (HPGS) 8-PAM signaling scheme for data centers’ communications. Optimizing parameters for different SNR-regions we can approach the Shannon limit. We demonstrate that LPDC-coded HPGS-8-PAM outperforms both probabilistic-shaped and uniform-signaling schemes.

Su2A.78 Ultra broadband, low loss and polarization independent silicon nitrite integrated optical power splitter, Zeshi Yuan1 and Ke Wang2, 1Nanjing Univ. of science and technology, China; 2RMIT Univ., Australia. We propose an optical SiN-based power splitter with high transmission efficiency for both TE and TM polarizations over a broad operation bandwidth. Unequal power splitting ratios can be achieved by using asymmetric gap sizes.

Su2A.79 Frequency Offset Estimation via Non- linear Spectrum Searching for NFDM Optical Communication Systems, Zibo Zheng1, Xulun Zhang1, Lixia Xi1, Ruihua Yu1, Changqing Li1 and Xiaoguang Zhang1, 1Beijing Univ. of Posts and Telecommunications, China. We proposed a frequency offset estimation method based on spectrum searching in discrete nonlinear frequency domain, added by training symbols. Estimation error lower than 1MHz range from ±1GHz, insensitive to linewidth of laser, was achieved.


Sunday, 28 October


Poster Session

Su2A.80 Measurement and analysis for capacitance of PIN photodetector, Yanwei Yang1, Yongqing Huang1, Tao Liu1, Xiaokai Ma1, Kai Liu1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecommunications, China. Based on the methods of AC bias analysis and fitting the equivalent circuit, two measurement systems are built up to measure and analyze the capacitance of PIN photodetector under different input optical power.

Su2A.81 Blind Modulation Format Recognition for Orthogonal Frequency Division Multiplexing- Based Elastic Optical Networking, Lei Zhao1, Hengying Xu1, Chenglin Bai1, Weibin Sun1 and Lishan Yang1, 1Liaocheng Univ., China. We propose and experimentally validate a simple and blind modulation format recognition (MFR) scheme of signal for orthogonal frequency division multiplexing-based elastic optical networking (OFDM-EON).

Su2A.82 Theoretical Analysis and Simulation of A Novel Optical Microcavity, Hongming Gu1, Yongqing Huang1, Huanhuan Wang1, Xiaofeng Duan1, Kai Liu1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecommunications, China. We present a novel conical top-mirror micropillar resonator (CTMR) that can support smaller model volume and higher Q-factors than the same size micropillar because of the small base angles of conical mirror.

Su2A.83 Multi-dimensional Resources Assign- ment for Various Demands with Flexible Window in SDM-EONs, Rong Ma1, Shan Yin1 and Shanguo Huang1, 1Beijing Univ. of posts and telecommunications, China. We introduce a system scheme to solve multidimensional RSCA problem. Jointing multicast and anycast, algorithms are proposed for the coexistence of IR and AR requests by using the flexible STSD window and load balancing techniques.

Su2A.84 Magnetic field sensor using Cu-coated DFB Fiber laser, Chaojiang Hao1, Wentao Zhang1 and Ying Song2, 1Inst. of Semiconductors, Chinese Academy of Sciences, China; 2Shijiazhuang Tiedao Univ., China. Distributed feedback Bragg fiber laser with Cu-coating is used as the sensing element to measure the static magnetic field. Experiments show that a resolution of 0.27 μT/Hz1/2 is achieved.

Su2A.85 Optical Fiber Fabry-Perot Inclinometer Based on White Light Interferometry, Peng Cui1, Wentao Zhang2 and Ying Song1, 1Shijiazhuang Tiedao Univ., China; 2Inst. of Semiconductors, Chinese Academy of Sciences, China. A simple, compact and high sensitivity fiber-optic inclinometer based on white-light interferometric measurement is proposed. Owing to the advantages of white-light interferometric measurement, high-resolution measurement of the tilt angle can be achieved.

Su2A.86 A High Sensitivity Fiber Laser Microphone, Wentao Zhang1, Fang Li1 and Yingbo Luo1, 1Inst. of Semiconductors, Chinese Academy of Sciences, China. A novel fiber laser microphone is presented. Due to the ultra-narrow line width of the fiber laser, using interferometric demodulation, the FLM shows a low noise level. The test results are also given.

Su2A.87 Fiber optic magnetic field sensor utilizing DFB fiber laser and Terfenol-D material, Wentao Zhang1, Rui Ma1 and Yifei Ma2, 1Inst. of Semiconductors, Chinese Academy of Sciences, China; 2Tianjin Univ., China. A distributed feedback fiber laser bonded on the giant magnetostrictive material Terfenol-D is used to measure static magnetic field through sweep acoustic wave. The sensitivity is 0.39 Hz/mT to the magnetic field.

Su2A.88 High-efficiency and Broadband Optical Beam Splitters Based on All-dielectric Polymer-based Metasurfaces, Jifei Ding1, Yonghong Ling1, Jing Luan1, Wei Wu1, Shuang Li1 and Lirong Huang1, 1Wuhan National Laboratory for Optoelectronics, China. We propose two kinds of optical beam splitters based on all-dielectric trimer-based and pentamer-based metasurfaces, which respectively realize high-efficiency and broadband 3-dB beam splitting and 1:4 beam splitting in the near-infrared spectral range.

Su2A.89 Deadline-Aware Bandwidth Calendaring with Optical Reconfiguration for Inter-DC WAN, Xiaofei Li1, Lei Wang1, Liqian Wang1, Zhiguo Zhang1 and Xue Chen1, 1Beijing Univ. of Posts and Telecommunications, China. We proposed a deadline-aware bandwidth calendaring system consisting of future planning and present allocation with optical reconfiguration for bulk transfers in Inter-DC WAN, which achieves high efficiency in network throughput and request acceptance rate.

Su2A.90 The bidirectional recirculating loop system for 10000 km fiber-optic time transfer, Jingxi Liang1, Chenxia Liu1, Ruihuan Wu1, Fan Hu1, Zhaohui Wang1, Yaojun Qiao1 and Song Yu1, 1Beijing Univ. of Posts and Telecommunications, China. Compared with conventional one-way schemes, a bidirectional recirculating loop system is designed. The time transfer loop experimental platform without extra jitter is established and the bidirectional time signal can be transmitted as long as 10000km.

Su2A.91 Design Monlithic High-Contrast Grating Resonant-Cavity-Enhanced Photodetector In 1550nm, Kun Zeng1, Xiaofeng Duan1, Yongqing Huang1, Kai Liu and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecommunications, China. A novel construction of the resonant-cavity-enhanced photodetector with monolithic high-contrast grating is proposed. Numerical investigation results at 3V bias and 1550nm wavelength show that, the quantum efficiency is 83% and the 3dB bandwidth is 34GHz.

Su2A.92 Demonstration of Hardware-effective Phase Shift-based Symbol-masking for Secure Coherent QPSK System, Takahiro Kodama1 and Tatsuya Miyazaki1, 1Univ. of Yamanashi, Japan. We propose and demonstrate a secure 10 Gsymbol/s QPSK system using digital-domain phase shift-based symbol-masking at the post-symbol mapper, which can be half circuit speed compared to the current com- mercialized 256-bit AES algorithm.

Su2A.93 A Novel Optical Thermometric Ba3- La0.95Pr0.05Nb3O12 Phosphor with High Sensitivity and Signal Discriminability, Bowen Chen1, Chenxia Li1 and Degang Deng1, 1China Jiliang Univ., China. We synthesized a new Ba3La0.95Pr0.05- Nb3O12 phosphor. Based on Pr3+-Nb5+ intervalence charge transfer state, the temperature sensing performance of Ba3La0.95Pr0.05Nb3O12 has been greatly improved compared with thermally coupled levels based materials.

Su2A.94 Pulsations of single soliton and dual-soliton bunch in a fiber laser with net-normal dispersion, Hong-Jie Chen1, Yan-Jie Tan1, Han Wu1, Shu-Hong Huang1, Ai-Ping Luo1, Zhi-Chao Luo1 and Wen-Cheng Xu1, 1South China Normal Univ., China. We report the pulsations of both single soliton and dual-soliton bunch in a fiber laser with net-normal dispersion. In the pulsations of solitons, different structural spectrums appear during the energy pulsation of solitons.

Su2A.95 Temperature-insensitive frequency generation achieved by compensating thermally-induced phase mismatch, Xun Liu1 and Xueju Shen1, 1Army Engineering Univ., China. A simple and versatile thermally-induced phase mismatch compensation method by three cascaded nonlinear crystals is proposed and experimentally demonstrated for temperature-insensitive frequency conversion.

Su2A.96 Robust 400G Digital Multiband Tran- smission Using Frequency/Polarization Concatenated Code and Frequency-self-tuning Algorithm for ROADM Sy- stem, Takahiro Kodama1, 1Univ. of Yamanashi, Japan. Cascaded ROADM tolerant 4-SB DP-16QAM-based 400G transmission on single wavelength was demonstrated using frequency/polarization concatenated coding and multiband-frequency-tuning, and it mitigated a 2.9 dB Q degradation through laser frequency drift emulation.

Su2A.97 Contrallable Synaptic Behavior in Pho- tonic Neuromorphic Transistor, Bang Li1, Xin Yan1, Yanbin Luo1, Qichao Lu1, Xia Zhang1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecommunications, China. We demonstrate an InAs nanowire photo- transistor with synaptic behavior. The device mimics synaptic neuromorphic functions such as short-term plasticity and long-term plasticity. Moreover, these synaptic behaviors can be controlled by the application of gate voltage.

Su2A.98 Michelson lateral shearing interference microscopy for quantitative phase measurement, Tengfei Sun1, Peng Lu1, Zhuang Zhuo1, Wenhao Zhang1 and Jingqi Lu1, 1Shandong Univ. China. By replacing the two mirrors of the Michelson interferometer with two right angle prisms and then rotating one, a kind of Michelson lateral shearing interference microscopy is demonstrated for quantitative phase measurement of biological cell.

Su2A.99 Tunable Optical Comb Generation Uti- lizing an Optoelectronic Oscillator Based on Stimulated Brillouin Scattering, Huayang Du1, Rui Guo1, Huanfa Peng1, Yongchi Xu1 and Zhangyuan Chen1, 1Peking Univ., China. A tunable optical comb generation utilizing an optoelectronic oscillator based on stimulated Brillouin scattering is demonstrated. The repetition-rate can be tuned from 2.5-to-50GHz with 2.5GHz step. The phase-noise is −100dBc/Hz at 10 kHz offset.


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Poster Session

Su2A.100 Three-layer-core fiber based erbium- m-doped fiber laser with azimuthally polarized beam output, Min Tang1, Min Cao1, Yuean Mi1, Haisu Li1, Wei Jian1 and Guobin Ren1, 1Beijing Jiaotong Univ., China. We propose a fiber laser based on three-layer-core (TLC) erbium doped fiber with azimuthally polarized beam (TE01 mode) output directly. The proposed fiber laser oscillates in TE01 mode with high slope efficiency.

Su2A.101 Generation of Square Pulse in an All-Fiber Yb-Doped Figure-of-Eight Fiber Laser, Zihao Li1, Dongfang Jia1, Xu Sun1 and Yiting Jin1, 1Tianjin Univ., China. We have experimentally demonstrated an all-fiber Yb-doped figure-of-eight fiber laser that generates square pulses in a dissipative soliton resonance (DSR) region based on nonlinear optical loop mirror (NOLM).

Su2A.102 Phase delay beam splitter based on silicon-based sub-wavelength grating in optical communication, Huijuan Niu1,2, Yongqing Huang1, Chunyun Yue2, Baoying Liu1, Xiaomin Ren1, Huanhuan Wang1, Xiaofeng Duan1 and Kai Liu1, 1Beijing Univ. of Posts and Telecom- munication, China, 2Liaocheng Univ., China. The phase delay beam splitter is designed to realize the power splitting and fixed 180o phase delay of the TM mode optical beam based on the sub-wavelength grating, with the trans- missivity above 97%. `

Su2A.103 Research on the influence of the saturable absorber on the performance of mode-locked semiconductor lasers, Wu Zhao1, Lu Guo1, Huan Wang1, Guangcan Chen1, Dan Lu1 and Lingjuan Zhao1, 1Key Laboratory of Semiconductor Materials Science, Inst. of Semiconductors, Chinese Academy of Science, China. The influence of the length of the saturable absorber (SA) on Fabry-Pérot cavity mode-locked semiconductor lasers is studied experimentally. 40-GHz 1.49-ps mode-locked pulse train was obtained with an optimized SA section design.

Su2A.104 Cross-Layer Spectrum Defragmentation for IP over Elastic Optical Network, Yunrong Zhang1, Ya Zhang1, Yongcheng Li1, Gangxiang Shen1, Yonghu Yan2 and Wei Chen2, 1Soochow Univ., China, 2Jiangsu Hengtong Fiber Science and Technology Corporation, China. We propose cross-layer spectrum defragmenttation for an IP and EON network to achieve better spectrum utilization. Results show that the proposed cross-layer scheme is beneficial to greatly improve BBP compared to the other schemes.

Su2A.105 Frequency-Shifted Modulation using a Single DDMZM and Kramers–Kronig Scheme based Direct Detection Rec- eiver in Long-Reach PON, Xiang Gao1, Bo Xu1, Yuancheng Cai1, Mingyue Zhu1, Jing Zhang1 and Kun Qiu1, 1Univ. of Elec. Scie.&Tech. of China, China. A new scheme for complex QAM signal transmission with DDMZM and direct detection KK scheme is proposed. Experiment demonstration with 36.25-Gbps frequency-shifted 16-QAM over 75 km SSMF has been successfully made using this scheme.

Su2A.106 Four-port mode-selective optical router for optical interconnect, Hao Jia1, Ting Zhou1, Xin Fu1, Lei Zhang1 and Lin Yang1, 1Inst. of Semiconductors, China. We propose and demonstrate a four-port optical router using mode-selective property. The router uses modes as labels to direct signals among ports. The insertion loss and crosstalk are lower than 8.0 dB and -22.0 dB.

Su2A.107 Random-Interleave-Based Anti-Occlusion Scheme for MIMO-VLC System, Shuang Zhan1, Zhitong Huang1, Yu Xiao1 and Yuefeng Ji1, 1Beijing Univ. of Posts and Telecommunication, China. In this paper, we propose random- interleaved-based anti-occlusion scheme for multiple-input multiple-output VLC system. The simulation and experiment results show that the proposed scheme offers superior bit error rate performance in environment of obstructions.

Su2A.108 Application of Chirp-managed laser and bits-interleaving in digital mobile fronthaul, Kaibo Fang1, Wen Zhou1, Jiao Zhang1 and Jianjun Yu1, 1Fudan Univ., China. We successfully achieved 32Gbps PAM-4 data transmission without complex DSP algorithm. The CML realizes high tolerance against fiber dispersion. And we use bits-interleaving to reduce distortion, which realized -3 dB receiver sensitivity improvement.

Su2A.109 DFB fiber laser for high-resolution acoustic emission detection based on beat frequency interrogation, Qing Jia1, Wenzhu Huang2 and Wentao Zhang2, 1Shijiazhuang Tiedao Univ., China, 2Inst. of Semiconductors, Chinese Academy of Sciences, China. This paper proposes a compact acoustic emission (AE) detection technique based on distributed feedback fiber laser using beat frequency interrogation. A high strain resolution of 6.4×10-9 with 1 MHz demodulation speed is achieved.

Su2A.110 Inverse-designed all-optical NOT gate with a 1.2×1.2 μm2 footprint on SOI, Qichao Lu1, Xin Yan1, Yanbin Luo1, Bang Li1, Xia Zhang1 and Xiaomin Ren1, 1Beijing Univ. of Post and Telecommunication, China. We have designed an all-optical NOT gate on SOI with a footprint of 1.2×1.2 μm2. The device designed by a PSO method and simulated by FDTD. The overall response time is < 1 ps.

Su2A.111 Error analyses for simultaneous measurement of temperature and strain based on polarization-maintaining few-mode fibers, Zhice Han Han1, Ningbo Zhao1, Zhiqun Yang1 and Guifang Li2, 1Tianjin Univ., China; 2Univ. of Central Florida, United States. Error analyses for simultaneous measurement of temperature and strain based on polarization-maintaining few- mode fibers is proposed. Sensing errors can be reduced by fiber optimization. The influence of diameter of stress-applying rods is shown.

Su2A.112 Compact Four-Channel Directly Mod- ulated Analog Optical Transceiver Module for RoF Application, Yao Ye1, Lei Deng1, Baojian Qi1, Yucheng Zhang1, Di Li1 and Deming Liu1, 1Huazhong Univ. of Science and Technology, China. An integrated optical transceiver was developed. For each lane, the measured bandwidth exceeds 19 GHz and SFDR3 is 97dB·Hz2/3. Error-free transmission has been achieved when dynamic rate of 100 Mb/s after 15.5 km SMF propagation.

Su2A.113 Tunable Semiconductor Metamaterials, Li Min1, Chaoming Luo1 and Lirong Huang2, 1Hunan Inst. of Science and Technology (HNIST), China; 2Huazhong Univ. of Science and Technology, China. A semiconductor metamaterial is proposed, and its optical properties of this metamaterial are simulated, and found that it can serve as tunable metamaterials, which will make manipulations of electromagnetic waves more directly, freely and flexibly.

Su2A.114 Dynamic Buffering Cost-Saving Multi-Path Routing under Differential Delay Constraint in EONs, Zhan Zhang1, Shan Yin1, Shijia Guo1, Zebin Lin1, Yidong Chen Chen1 and Shanguo Huang1, 1State Key Laboratory of Information Photonics and Optical Communications, BUPT, China. This paper considers the buffering costs of multi-path routing schemes and proposes a dynamic buffering cost-saving multi-path routing algorithm under differential delay constraint to save the buffering costs in elastic optical networks (EONs).

Su2A.115 The Radial Modulation of Uniform Circular Array to Mitigate Diffusion of Orbital Angular Momentum, Xiyao Song1, Mutong Xie1, Xinlu Gao1, Zhennan Zheng1 and Shanguo Huang1, 1Beijing Univ. of Post and Telecommunication, China. Radial modulation of uniform circular array based on optics was proposed to mitigate diffusion of orbital angular momentum. When radial distribution obey Fresnel zone plate, diffusion is much weaker. Simulation results agree well with theory.

Su2A.116 Microwave Photonic Single-passband Filter with Improved Out-of-band Rejection and Extended Frequency Tuning Range, Enming Xu1, Fan Li1, Zuxing Zhang1 and Peili Li1, 1Nanjing Univ. of Posts and Telecommunications, China. A microwave photonic single-passband filter is proposed and experimentally demonstrated. Through subtraction between the two filters realized by a phase-shifted fiber Bragg grating, the out-of-band rejection is improved and the frequency tuning range is extended.

Su2A.117 The Suppression of frequency chirp in directly modulated monolithic optical injection locked DFB Lasers, Linjie Zou1, Yunshan Zhang2 and Zuye Lu1, 1Nanjing Univ., China; 2Nanjing Univ. of Posts and Telecommunications, China. The frequency chirp in directly modulated monolithic optical injection locked (MOIL) DFB laser is investigated. The frequency chirp in the MOIL DFB laser at directly-modulated state is suppressed significantly.

Su2A.118 A compact TE-pass polarizer based on shallowly-etched SOI ridge waveguides with varying widths, Xiaofeng Huang1, Zhaowei Ke1, Renyou Ge1 and Xinlun Cai1, 1Sun Yat-sen Univ., China. A compact TE-pass polarizer based on shallowly-etched SOI ridge waveguides with varying widths has been numerically and experimentally demonstrated. It has an extinction ratio of 18.5dB and an insertion loss of 0.15dB.

Su2A.119 Ionising Radiation Induced Effects on Bismuth/Erbium Co-Doped Optical Fibres, Yanhua Luo1, Gui Xiao1, Qiancheng Zhao1, Andrei Stancălie2, Daniel Ighigeanu2, Daniel Neguţ2, Dan Sporea2, Binbin Yan3, Jun He4, Jianxiang Wen4 and Gang-Ding Peng1, 1The Univ. of New South Wales, Australia; 2National Inst. for Laser, Plasma and Radiation Physics, Romania; 3Beijing Univ. of Posts and Telecommunications, China; 4Shenzhen Univ., China. Effects induced by different ionising radiations, including gamma, electron and neutron/ gamma mix on bismuth/erbium co-doped fibre (BEDF) have been investigated and compared.


Sunday, 28 October


Poster Session

Su2A.120 Stimulated Brillouin Scattering Fiber Laser with Effective Suppression of the Number of Longitudinal Modes, Mingming Wang1, Ting Feng1, Weidong Lai1 and X. Steve Yao1, 1Hebei Univ., China. A stimulated Brillouin scattering fiber laser with a 100 m SMF-28 tapered fiber to obtain enough stimulated Rayleigh scattering feedback to decrease the number of longitudinal modes significantly is constructed.

Su2A.121 Low Dispersion Photonic Crystal Fiber for OAM Mode, Xin Wan1, Zuxing Zhang1, Yunyun Guo1 and Hongdan Wan1, 1Nanjing Univ. of Posts and Telecommunications, China. We design a novel photonic crystal fiber (PCF), which can transmit 26 orbital angular momentum modes (OAMs), by inserting micro-structure to common PCF. The new type PCF shows a great improvement in term of dispersion. Su2A.122 DR-CFS Algorithm for Optical Network User Behavior Analysis, Ming Ni1, Chong- fu Zhang1 and Kun Qiu1, 1Univ. of Science and Technology of China, China. We propose a novel DR-CFS algorithm to analyze and cluster the optical network user behavior, which can identify all clusters in a dataset having clusters of greatly varying densities compared with the conventional ones. Su2A.123 Three-dimensional wavelength and polarization directional coupler based on nanowire waveguides, Zichen Liu1, Xiang Li2, Xi Xiao2, Yuguang Zhang2, Lei Wang2 and Daigao Chen2, 1Huazhong Univ. of Science and Technology, China; 2Wuhan Research Inst. of Posts and Telecommuncations Co., LTD, China. A three-dimensional wavelength and polarized optical directional coupler based on nanowire waveguides is numerically studied. The directional coupler can realize the function of wavelength and polarization splitter simultaneously without changing the structure parameters.

Su2A.124 A Novel Miniaturized All-Optical Switch Based on Optical Gradient Force, Xinye Fan1, Shumin Kong1, Wenjing Fang1, Huijuan Niu1, Nanguang Chen1 and Chenglin Bai1, 1Liaocheng Univ., China. A miniaturized all-optical switch driven by optical gradient force has been demonstrated. Its extinction ratio and response time are 12dB and 18ns, which can be adopted in optical communication systems and silicon photonic integrated circuits. Su2A.125 Optimization of the Channel Estimation Training Sequence for Precoded DD- O-OFDM System, Tianhao Tong1, Xi Chen1, Ming Tang1, Huibin Zhou1, Yizhao Chen1, Songnian Fu1 and Deming Liu1, 1Huazhong Univ. of Science and Tech- nology, China. We propose to optimize the power of the channel estimation training sequence hence enhance the performance of precoded DDO-OFDM system. The experimental results show that up to 1 dB receiver sensitivity improvement is achieved. Su2A.126 Iterative Channel Equalization for ADO-OFDM in Short-Haul Fiber-Optical Links, Zhixue He1, Ming Luo1 and Xiang Li1, 1Wuhan Research Inst. of Post & Telecommunications, China. We experimentally demonstrate ADO-OFDM transmission over 20-km single mode fiber at 1.5 dB and 2 dB performance improvement for 4-QAM and 16-QAM formats by using the proposed iterative channel equalization. Su2A.127 An optical frequency comb with high carrier-to-noise ratio based on interleaved recirculating frequency shifter, Xiangyu Wu1, Bo Liu2, Lijia Zhang1, Yaya Mao2, Xing Xu1, Jianxin Ren1, Bo Tian1, Ying Zhang1 and Xiangjun Xin1, 1Beijing Univ. of Posts and Telecommunications, China; 2Nanjing Univ. of Information Science and Technology, China. We propose an improved scheme of optical frequency comb based on interleaved recirculating frequency shifter. The simulation results show a better performance in carrier-to-noise ratio is obtained, as well as much more subcarriers.

Su2A.128 Chromatic Dispersion Measurement of a Two-Mode Fiber using a Mode Coupler and Optical Time-Domain Reflectometer, Masaharu Ohashi1, Tomoya Kawasaki1, Yuji Miyoshi1, Hirokazu Kubota1, Ryo Maruyama2 and Nobuo Kuwaki3, 1Osaka Prefecture Univ., Japan; 2Fujikura Ltd, Japan; 3Kyoei High Opt Co., Ltd, Japan. Chromatic dispersion of the LP11 mode in a two- mode fiber is successfully estimated experimentally based on the wavelength dependence of the mode field diameter, which is measured by the bidirectional backscattered power technique. Su2A.129 Polarization Insensitivity Filter Using 2D Sub-wavelength High Contrast Gratings, Wenjing Fang1, Chunyun Yue1, Xinye Fan1, Huijuan Niu1, Xia Zhang1, Hengying Xu1, Nanguang Chen1 and Chenglin Bai1, 1Liao- cheng Univ., China. This paper proposed a polarization independence filter using 2D sub-wavelength high-contrast grating (HCG) structure. The effects of different grating parameters and different incident angles on filtering performance is simulated and analyzed. Su2A.130 Inverse-Design-based Light Via for Multi-Layer Photonic Integration Circuit, Zexin Yu1, Jifang Qiu1, Zhenli Dong1, Li Zheng1, Hongxiang Guo1 and Jian Wu1, 1Beijing Univ. of Posts and Telecomm- unications, China. A multi-layer light via for TE-polarized light is proposed based on inverse design. Simulation results show that the insertion loss is 0.55dB at 1550nm, and the device has an ultra-wide 1dB bandwidth of 1451-1712nm. Su2A.131 Multi-frequency current measurement system based on fiber Bragg grating and cantilever beam, Jiahao Yi1, Zhiguo Zhang1, Luming Li2, Zhehao Yan1, Renzhong Guo3 and Chenying Jiang3, 1Beijing Univ. of Posts and Telecomm- unications, China; 2Jiangxi Electric Power Company, China; 3Jiujiang Electric Power Supply Company, China. A multi-frequency current sensing system based on fiber Bragg grating, cantilever beam, spiral coil and soft magnet is demonstrated. The sensor is insensitive to temperature.

Su2A.132 Ultra-broadband Polarization Beam Splitter Based on a Tapered Bent Directional Coupler, Ning Zhao1, Yu He1, Ciyuan Qiu1, Yong Zhang1 and Yikai Su1, 1Shanghai Jiao Tong Univ., China. We numerically propose an ultra-broadband polarization beam splitter based on a tapered bent directional coupler. Lower than 1-dB insertion losses and over 10-dB extinction ratios are obtained over a wavelength range of 200 nm. Su2A.133 Performance Analysis of LDPC Codes for Wireless Optical Communication Sys- tems in Different Seawater Environ- ments, Jingni Zhang1, Yi Yang1, Zhuo Gao2 and Yunzhou Zhu2, 1Xi’an Univ. of Posts and Telecommunications, China; 2Xi’an Precision Machinery Resarch Inst., China; 3Kyoei High Opt Co., Ltd, Japan. The wireless optical seawater channel transmission model is applied to LDPC channel coding to obtain the coding system can increase the transmission distance by about 3 meters at the BER is 10-3 in different seawater. Su2A.134 Performance of Optical Correlation Re- ceiver with an Analog Integration Circuit on Residual Dispersion Mitigation for Nyquist OTDM, Shota Maeda1, Kosuke Morimoto1, Shiho Nakata1, Yuji Miyoshi1, Hirokazu Kubota1 and Masaharu Ohashi1, 1Osaka Prefecture Univ., Japan. We compare the quality of the signal that is produced by the analog integration circuit and the ideal integrator in terms of residual dispersion mitigation for Nyquist optical time-division multiplexing. Su2A.135 Thermal Properties of Luminescence in Bismuth/Erbium Co-Doped Optical Fibre, Bowen Zhang1, Mingjie Ding1, Yushi Chu1, Yanhua Luo1, Binbin Yan2 and Gang-Ding Peng1, 1The Univ. of New South Wales, Australia; 2Beijing Univ. of Posts and Telecommunications, China. Thermal properties of luminescence in bismuth/ erbium co-doped optical fibre (BEDF), especially the fluorescence intensity ratio (FIR) characteristics have been investigated. The results demonstrate that BEDF may be used for FIR related temperature sensing applications.

Su2A.136 Characteristic of polarization state under the effects of source parameters and atmospheric turbulence, Ziyang Li1, Ruijie Li1 and Anhong Dang1, 1Peking Univ., China. We give closed-form solution of cross-spectral density matrix and investigate effects of anisotropic turbulence and source on polarization property. The results show that we can decrease wavelength or increase source size to improve communication performance.

Su2A.137 High sensitivity sensing measurement of low concentration of solution based on s-tapered fiber, Dujuan Yang1, Han Zhu1 and Yunxu Sun1, 1the School of Electronic and Information Engineering, Harbin Inst. of Technology, China. We utilize the common fused biconical taper machine used in industry to fabricate the S tapered fiber by arc heating. We studied to measure the sensing characteristics in low concentration of solution.

Su2A.138 Bending sensor based on tilted fiber Bragg grating, Zhihui Duan1, Yang Zhang1, Fang Wang1, Zhenguo Jing1, Dapeng Zhou1 and Wei Peng1, 1Dalian Univ. of Technology, China. A novel bending sensor based on tilted fiber Bragg grating with wavelength demodulation method is proposed. The sensors have a measurement range of 0-17 m-1 and sensitivity is -0.171 nm / m-1.

Su2A.139 Research on Denoising Algorithm of Sparse Signal Reconstruction in Polarization Mode Dispersion Measu- rement System, Gong Chen1, Xueguang Yuan1, Yangan Zhang1 and Yalei Chu1, 1Beijing Univ. of Posts and Telecommunications, China. This paper proposes a method that applying the sparse signal reconstruction (SSR) method to the polarization mode dispersion measurement, which successfully removes the noise during the measurement process and improves the system's measurement accuracy.


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Poster Session

Su2A.140 A Promising SPR Sensor with SMS Fibers Embedding Microcavity, Kezhen Rong1, Huifang Chen1, Xiaoyan Tang1, Hao Li1, Tiantian Chen1 and Kaixuan Zhu1, 1China Jiliang Univ., China. In this paper, a cascaded fiber with microcavity is presented that enhancing the optical field intensity of the fiber surface by forming a microlens effect by embedding an air microcavity in a single-multimode cascade fiber.

Su2A.141 Ultra-narrow-band multi-channel perfect absorber based on optical Tamm states in metal-dielectric-metal waveguid, Xiang Wu1, Yunqing Lu1, Jiong Xu1, Ji Xu1 and Jin Wang1, 1Nanjing Univ. of Posts and Telecommunications, China. An ultra-narrow-band multi-channel perfect absorber is proposed based on Tamm states in a metal-dielectric-metal waveguide, whose core is a metal-photonic crystal (PhC)-metal-PhC-metal structure. The simulations demonstrate that four-channel perfect absorption of 0.99 can be achieved.

Su2A.142 Study on Dependence of temperature on CO2 Absorption Coefficient at 1572.34nm, Kaichen Tao1, Xiangnong Wu1 and Xin Zhang1, 1Shanghai Normal Univ., China. This paper in view of the low temperature carbon dioxide under the condition of spectral lines of the lack of the research content，The relationship between absorption of carbon dioxide and temperature is derived and verified.

Su2A.143 Mode dispersion analysis based on refractive index of graded-index multimode fiber, Yu Zhao1, Sujuan Huang1, Cheng Yan1 and Xinyu Shen1, 1Shanghai Univ., China. we propose an analysis method for mode dispersion by combing the digital holographic microscopic tomography and the ray tracing theory，and analyze the transmission characteristics of the OM2 and OM4 fiber.

Su2A.144 Temperature Dependence of Cutoff Wavelength in Bi/Er Co-Doped Fiber, Shuen Wei1, Yanhua Luo1, Gui Xiao1, Desheng Fan1, Yushi Chu1, Bowen Zhang1, Binbin Yan2 and Gang-Ding Peng1, 1The Univ. of New South Wales, Australia; 2Beijing Univ. of Posts and Telecommunications, China. In temperature range from 23°C to 500°C, effective cutoff wavelength of BEDF is found to be a linear function of temperature, shifting from 912 nm to 946 nm at a rate of ~ 76 pm/°C.

Su2A.145 Peak-to-average Power Ratio Suppression Based on Multi-stage Optimal Phase (MSOP)-SLM, Yang Ye1, Mingyi Gao1, Yuanyuan Ma1, Weidong Shao1, Wei Chen2 and Yonghu Yan2, 1Soochow Univ., China; 2Hengtong Fiber Science and Technology, China. In this work, a multi-stage optimal phase SLM is proposed to reduce the PAPR of OFDM signal. Compared with the C-SLM, the proposed method can achieve 0.5-dB PAPR gain, keeping the computational complexity same.

Su2A.146 Thermal Emitter Based on All-dielectric Thin-film Metasurface for Radiation Cooling in High-power Vertical Cavity Surface Emitting Laser, Wenbing Liu1, Wei Wu1, Yonghong Ling1, Jing Luan1, Chunfa Ba1, Li Min2 and Lirong Huang1, 1Huazhong Univ. of Science and Technology Wuhan, China; 2Department of Physics nd Electronics, Hunan Inst. of Science and Technology (HNIST), China. We propose a thermal emitter for radiation cooling in a high-power vertical cavity surface emitting laser (VCSEL). It consists of indium-tin-oxide (ITO)/AlN/SiC/Si3N4/SiO2 thin-film metasurface, brings about 5.6 °C temperature reduction in the VCSEL chip.

Su2A.147 A Simple Artificial Neural Network Based Joint Modulation Format Identification and OSNR Monitoring Algorithm for Elastic Optical Networks, Qianwu Zhang1, Hai Zhou1, Min Liu1, Jian Chen1 and Junjie Zhang1, 1Shanghai Univ., China. A simple artificial neural network based joint modulation format identification and OSNR monitoring algorithm for elastic optical networks is experimentally realized in IMDD QAM-OFDM system. Experimental results demonstrate high identify- cation and OSNR estimation accuracy.

Su2A.148 Smartphone based LSPR biosensor, Qiang Liu1, Yun Liu1, Huizhen Yuan1, Jiabin Wang1, Jianye Guang1 and Wei Peng1, 1Dalian Univ. of Technology, China. We demonstrated a fiber optic LSPR sensor based on smartphone. By im- mobilizing gold nanoparticles (GNPs) on an unclad portion of optical fiber probe, we developed a kind of LSPR sensor of GNPs.

Su2A.149 A Reconfigurable Optical Frequency Comb Generator with 35 Flat Comb Lines, Jinwang Qian1, Mingzheng Lei1, Zhennan Zheng1, Xinlu Gao1 and Shanguo Huang1, 1Beijing Univ. of Posts and Telecommunications, China. We propose an optical frequency comb (OFC) generator with excellent spectral flatness using cascaded dual-parallel and intensity modulators. 35 comb lines within 1 dB spectral power variation is generated.

Su2A.150 Noise-tolerant spiral 16-QAM system based on cascaded Kalman filters, Yuanyuan Ma1, Mingyi Gao1, Junfeng Zhang1, Yang Ye1, Hongliang Ren2 and Yonghu Yan3, 1Soochow Univ., China; 2Zhejiang Univ., China; 3Jiangsu Hengtong Fiber Science and Technology, China. In this work, we proposed a noise-tolerant spiral 16-QAM system with larger Euclidean distance and minimum angular distance. We utilized the cascaded Kalman filters to suppress the phase noise caused by the laser linewidth.

Su2A.151 Fast soliton compression in nonlinear fiber via shortcuts to adiabaticity, Siwei Wang1, Jing Li2, Qian Kong1, Xi Chen1; 1Shanghai Univ., China; 2Okinawa Inst. of Science and Technology Graduate Univ., Japan. Motivated by shortcuts to adiabaticity (STA), we study fast non-adiabatic soliton control in nonlinear fiber. We apply variational principle, and design loss and gain inversely. Comparison with adiabatic control are made finally.

Su2A.152 Femtosecond direct writing of intergrated Mach-Zehnder interfereometer with Bragg grating for curvature-temperature discrimi- nation, Peng Wang1, Xuewen Shu1, Yujie Kong1 and Zuowei Xu1, 1Huazhong Univ. of Science and Technology, China. An all-in-single-mode-fiber sensor consisting of a Mach-Zehnder interferometer and a Bragg grating fabricated by femtosecond laser is demonstrated for directional curvature and temperature sensing. The sensor exhibits a large linear response range for curvature measurement.

Su2A.153 Highly RIU-Sensitive Plasmonic Metal- Dielectric-Metal Device with Two Side-Coupled Fano Cavities, Jiong Xu1, Yunqing Lu1, Min Xu1, Ji Xu1, Jin Wang1 and Jiajin Zheng1, 1Nanjing Univ. of Posts and Telecommunications, China. We propose a compact plasmonic device comprising a metal-dielectric-metal waveguide with two side-coupled rectangular cavities. These two Fano resonances can be tuned independently and achieve a high sensitivity of 1295 nm/RIU at same resonant wavelengths.

Su2A.154 Application of Novel High Efficiency Two-Photon Induce Blue Emission Material in Biological Imaging, Xiao Liu1, Nan-Nan Zhang1, Lei Guo2, Zhong-Chao Wei1, Yin-Yin Li2, Qiao-Feng Dai1, Hai-Ying Liu1 and Hai Hua Fan1, 1Guangdong Provincial Key Laboratory of Nano- photonic Functional Materials and Devices South China Normal Univ., China; 2Sun Yat-Sen Univ., China. A novel molecule which exhibits efficient two-photon blue photoluminescence is synthesized and investigated. In a two-photon microscope, this molecule can increase the luminous intensity of cells in the blue channel by 172.8 times.

Su2A.155 Enhanced surface plasmon resonance fiber sensor based on Graphene Oxide, Jing Zhao1, Yiping Wang2, Changrui Liao2, Ying Wang2 and Jun He2, 1ShenZhen Inst. of information technology, China; 2Shenzhen Univ., China; 3Jiangsu Hengtong Fiber Science and Technology, China. We demonstrated Graphene Oxide enhanced SPR sensor based on silver-coated side-polished fiber. Experimental results demonstrate that sensitivity of proposed sensor enhance to 2252.0 nm/RIU, compared with traditional silver-coated-SPR sensor of 1523.5 nm/RIU, improved 1.48 times.

Su2A.156 Real-time observation of pulsating dissipative solitons in a normal-dispersion fiber laser, Yueqing Du1, Zuowei Xu1 and Xuewen Shu1, 1Huazhong Univ. of Science and Technology, China. We observed the pulsating dissipative solitons in a mode-locked fiber laser using the dispelrsive-Fourier transformation technology. Our results can enhance the understanding of the pulsating solitons in the dissipative systems.

Su2A.157 Correction of SNAP microresonators fabricated by femtosecond laser with sub-angstrom precision, Qi Yu1, Yueqing Du1, Michael Sumetsky2 and Xuewen Shu1, 1Huazhong Univ. of Science and Technology, China; 2Aston Univ., United Kingdom. We firstly demonstrated a post-processing method that improves the flexibility of the surface nanoscale axial photonics (SNAP) by femtosecond laser. Three SNAP microresonators were corrected by the calibrated scheme with the precision of 0.75 Å.

Su2A.158 Analysis and Realization of Pulse Replication System Based on Active Fiber Loop, Hui Gao1, Ye Deng1 and Jinping Zhang1, 1National Key Laboratory of Antenna and Microwave Technology, China. Influence of the loop gain, ASE noise, and EDFA's working state on the performance of the pulse replication system are theoretically analyzed and experimentally verified. More than 100 replicas with SNR>60dB have been successfully achieved.


Sunday, 28 October


Poster Session

Su2A.159 Tri-color Laser Diode Based 75-km Long-reach 28-GHz MMWoF with Single-carrier Modulation, Huai-Yung Wang1, Yu-Chieh Chi1 and Gong-Ru Lin1, 1National Taiwan Univ., Taiwan. A tri-color laser diode with single-carrier modulation to overcome dispersion induced fading is applied to enable 36-Gbit/s baseband 64-QAM OFDM and 16-Gbit/s passband 16-QAM OFDM transmissions for fusing 75-km long-reach optical and millim- eter-wave networks.

Su2A.160 Loop Parameters Designing Method for Optical Phase-Locked Loop System, Shengyao Xu1, Ding Ding1, Yang'An Zhang1, Xueguang Yuan1, Xuhui Song1 and Yongqing Huang1, 1Beijing Univ. of Posts and Telecommunications, China. A loop parameters designing method and an auxiliary pulling module for an optical phase-locked loop system were discussed. The experiment demonstrated a pull-in frequency range as wide as 2.4GHz and a frequency accuracy of 2MHz.

Su2A.161 Qualitative and quantitative detection of ethyl carbamate in wine using Surface-enhanced Raman spectroscopy, Haiyan Qi1, Huacai Chen1 and Li Jiang1, 1China Jiliang Univ., China. Surface-enhanced Raman spectroscopy (SERS) was reported to qualitative and quantitative detection of ethyl carbamate. The flow- er-shaped silver nanoparticle substrates were synthetized as SERS test platform and higher accuracy quantitative model (R2=0.99) was established.

Su2A.162 Study of an in-line fiber Mach-Zehnder interferometer with peanut-shape structure for refractive index sensing, Fangda Yu1, Peng Xue1 and Jie Zheng1, 1Jilin Univ., China. A peanut-shape structure based in-line fiber Mach– Zehnder interferometer was fabricated. The power distribution of the modes was calculated. The interferometers were exploited for refractive index measurement. The highest sensitivity of 67.953 nm/RIU was achieved.

Su2A.163 Time-Stretch based Photonic Anal- og-to-Digital Convertors for Spectrum Detection, Qiang Zhao1, Ziyu Liu1 and Naijin Liu1, 1China Academy of Space Technology, China. We demostrate a photonic time-stretch based ADC system. A custom-built mode locked laser is used for low-jitter pulse generation. The measured sample rate is up to 285GSa/s, which can be used for spectrum detection.

Su2A.164 Visible light broadband absorber based on silicon nano-resonators, Guo-Dong Liu1, Di Zhang1, Jin Xiang1, Qiao-Feng Dai1, Hai-Hua Fan1 and Hai-Ying Liu1, 1South China Normal Univ., China. We design a new kind of nano-resonators based on silicon nanostructure, which can achieve absorptivities exceeding 80% in a wide band spanning from 400 to 700 nm.

Su2A.165 Kalman Filtering for VLC Channel Estimation of ACO-OFDM Systems, Eman Shawky1, Mohamed El-Shimmy1, Hossam Shalaby1, Amr Mokhtar1 and Sayed El-Badawy1, 1Alexandria Univ., Egypt. "A Kalman filter is employed for estimating the VLC channel. Two modulation techniques; ACO- OFDM and DCOOFDM are applied. The results show that the KF estimator outperforms other traditional estimators for both modulation techniques."

Su2A.166 A novel phased-shifted Bragg grating for Bloch surface waves, Qi-Qin Wei1 and Jing Xiao1, 1Guilin Univ. of Electronic Technology, China. A novel phase-shifted Bragg grating for Bloch surface waves is proposed. The proposed configuration does not include any metal and the absorption losses upon propagation of the surface wave are negligibly small.

Su2A.167 Recursive Neural Network Based RRH to BBU Resource Allocation in 5G Fronthaul Network, Bo Tian1, Qi Zhang1, Xiangjun Xin1, Qinghua Tian1, Xiangyu Wu1, Ying Tao2, Yufei Shen2, Guixing Cao2 and Naijin Liu2, 1Beijing Univ. of Posts and Telecom- munications, China; 2China Academy of Space Technology (CAST), Chinia. A recursive neural network based BBU pool resource allocation scheme in C-RAN is proposed. Simulation results indicate the proposed scheme achieves lower power consumption and blocking rate with higher total throughput compared with traditional network.

Su2A.168 Cascaded Double-ring enhanced On-chip Fourier-transform Spectrometer, Qiongchan Shao1, Mingyu Li2 and Jian-Jun He1, 1Zhejiang Univ., China; 2Changchun Univ. of Science and Technology, China. We demonstrate a heat-tuned Mach-Zehnder Interferometer Fourier-transform spectrometer enhanced with cascaded double-ring. The on-chip Fourier-transform spectrometer provides high resolution and large bandwidth.

Su2A.169 An optical fiber hydrogen concentration sensor based on Mach-Zehnder interferometer coated with a film of palladium, Jiaqi Gong1, Changyu Shen1, Zhiqiang Sun1, Shaojie Shuai1, Tingting Lang1 and Yike Xiao1, 1China Jiliang Univ., China. An optical fiber hydrogen sensor based on Mach-Zehnder interferometer was proposed. The hydrogen concentration range of detection is from 0% to 3.6%.

Su2A.170 Experimental Study on Characteristic Parameters of Red Blood Cells using the Optical Tweezers System, Ying Wu1, Chen Zhu1, Anping Ruan1, Ying Liu1 and Caiqin Han1, 1Jiangsu normal Univ., Chinia. The shear modulus, bending modulus and electrophoresis rate of red blood cells were calculated. And the mechanical parameters and surface charges of red blood cells in different conditions were analyzed.

Su2A.171 Performance Enhancement of a Broadband Polarization Rotator by using Modified Mode Converters, Chang Liu1, Jifang Qiu1, Tian Ye1, Hongxiang Guo1, Xiaobin Hong1 and Jian Wu1, 1Beijing Univ. of Posts and Telecommunications, China. A performance enhanced polarization rotator with high tolerance to fabrication on SOI platform is designed and analyzed. Simulation results show that ER>46dB is obtained at 1550nm, and ultra-wide bandwidth of 1440nm-1660nm is achieved for ER>20dB.

Su2A.172 Eigenvector Basis Expansion-Based Phase Noise Suppression Method for Coherent Nyquist-WDM-PON, Xin Qin1, Chuanchuan Yang1 and Ziyu Wang1, 1Peking Univ., Chinia. The BER performance of the modified eigenvector basis expansion-based (EBE) phase noise suppression method which is introduced to the Nyquist-WDM-PON systems outperforms the orthogonal basis expansion-based (OBE) method and common phase error (CPE).

Su2A.173 Optic Fiber Droplet Weighing Sensor Based on Mach-Zehnder Interferometer Cascaded Bowknot Type Taper, Shaojie Shuai1, Yinuo Xu1, Zhiqiang Sun1, Jiaqi Gong1, Tingting Lang1 and Changyu Shen1, 1China Jiliang Univ., China. A water droplet weight sensor based on Maher-Zehnder interferometer (MZI) cascaded Bowknot Type Taper (BTT) was proposed.This method can be used to determine the droplet weight in the range of 0 ~ 200mg.

Su2A.174 Dynamic Bandwidth Scheduling for IP over FC Networks, Shaojun Wu1, Yueying Zhan1, Jianhua He1, Kuangyi Qiao1, Xiang Chang1 and Liqian Wang1, 1Technology and Engineering Center for Space Utilization, Chinese Academy of Science, China. Multi service FC network simulation is constructed, the scheduling mechanism is analyzed by combining theoretical analysis with simulation.The results show that the proposed strategy can increase throughput of the network by more than 10 times.

Su2A.175 Spectrum Tailored Multicast Flow Aggregation Scheme in Elastic Optical Data Center Network, Xiaolei Xu1, Xian Zhang2, Haijing Hou3 and Haiyan Shen1, 1Inst. of Computing Technology China Academy of Railway Sciences Corporation Limited, Chinia; 2Beijing Inst. of Spacecraft Environment Engineering, China; 3China Network Communications Corporation Shandong Branch, China. A spectrum tailored multicast flow aggregation (ST-MFA) scheme which deletes all invalid spectrum on each link of a light-tree is proposed. Simulation results show that it accommodates more demands and is more spectrum-efficient.

Su2A.176 Fiber optic sensor based on MZI to measure urine sugar and micro velocity simultaneously, Yike Xiao1, Changyu Shen1, Shaojie Shuai1, Jiaqi Gong1, Zexu Liu1 and Zhiqiang Sun1, 1China Jiliang Univ., China. An optical fiber sensor for the measuring of urine sugar and micro velocity simultaneously based on Mach-Zehnder interference was proposed.The urine sugar sensitivity reaches up to 0.0047/g/dl under the urine sugar range of 0~0.2g/dl.

Su2A.177 High-resolution fiber optic seismic sensor array for intrusion detection of subway tunnel, Jiantao Huang1, Wentao Zhang2 and Wenzhu Huang2, 1Shenzhen Academy of Disaster Prevention and Reduction, Chinia; 2Inst. of Semicon- ductors, Chinese Academy of Sciences, China. This paper propose a three-component fiber optic seismic sensor array based on Michelson interferometer for intrusion detection of subway tunnel. The field test in Shenzhen shows the feasibility of the system.


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Poster Session

Su2A.178 CW Assisted Picosecond Pulse Pum- ped Supercontinuum in Silicon-on-insulator Wave- guide, Guangkuo Li1 and Qian Li1, 1Peking Univ., China. We numerically investigate the influences of a weak CW trigger on picosecond pulse pumped supercontinuum generation in silicon- on-insulator waveguide.

Su2A.179 Performance Improvement of IM-DD OFDM Systems by Nonuniform DAC Output Levels, Daojun Xue1, Weizhong Li2, Zhixue He1, Ming Luo1, Haibo Li2 and Xiang Li1, 1Wuhan Research Inst. of Posts and Telecommuncations Ltd, China; 2Huazhong Univ. of Science and Technology, China. We propose and experimentally demonstrate a nonuniform quantization scheme to improve the SQNR for low-bit resolution DAC based IM-DD OFDM transmission systems. The experimental results show maximal 3.9 dB performance improvement after 10-km transmission.

Su2A.180 Semi-frequency-locking and Bi-dyna-mic resulted from Chaos-control of a Dualring Erbium-doped Fiber Laser Using Double- parameter Anti-phase, Yan Senlin1, 1Nanjing Xiaozhuang Univ., China. A chaotic dual-ring erbium-doped fiber laser can be controlled to single-cycle and three-cycle via two anti-phase signals modulating the two-pump. And semi-frequency-locking region, three-cycle region and bi-dynamic region are found.

Su2A.181 Half-open cavity random fiber laser based on chirped-fiber Bragg grating array written in erbium-doped fiber, Zhaoxin Liu1, Jing Yang1, Lifeng Bao1, Chengrong Shen1, Ruifu Huang1 and Xinyong Dong1, 1China Jiliang Univ., China. A low-threshold random fiber laser based on an array of weak-reflectivity chirped-fiber Bragg gratings (CFBGs) written in a 5-m-long erbium-doped fiber incurporating with a wavelength-matched high-reflectivity CFBG in a half-open cavity is demonstrated.

Su2A.182 A code-free optical undersampling technique for broadband microwave spectrum measurement, Guangyu Gao1, Xueshuang Xiang1, Qijun Liang1 and Naijin Liu1, 1China Academy of Space Technology, China. A broadband microwave spectrum measurement scheme based on code-free optical undersampling is proposed. Under theory and simulation analysis, this scheme shows good spectral measurement capability for unknown broadband microwave spectrum sparse in frequency domain.

Su2A.183 Research Progress of Terahertz Wave Communication Technology, Yujun Yan1, Mengting Wang1 and Zigang Zhou1, 1Southwest Univ. of Science and Tech- nology, China. Summarize the character- ristics, categories, programs, key technologies involved, and research status of terahertz communication technology, and achieve results. Analyze research and development difficulties, look forward to development trends and application prospects.

Su2A.184 Fading noise reduction utilizing multi-wavelength scheme in phase interrogation based phase-sensitive optical time domain reflectometry, Chaoli Liang1 and Yang Lu1, 1National Univ. of Defense Technology, China. An approach is proposed for fading noise reduction in φ-OTDR, which utilizes multi-wavelength pulses as the probe. The wavelength dependence allows the approach to reduce the fading noise, which is confirmed by the experiments.

Su2A.185 Programmable orbital angular momentum(OAM) mode multiplexer based on multi-plane light conversion(MPLC), Xingguo Xiao1, Yan Li1 and Donghao Zheng1, 1Beijing Univ. of Posts and Telecommunications, China. We proposed and demonstrated a MPLC based programmable OAM mode multiplexing method. By using 5 and 7 phase planes, 3 and 4 OAM modes were multiplexed with average mode-purity of 90% and crosstalk below -24dB.

Su2A.186 62 km COTDR for Long-Distance Dist- ributed Temperature Sensing with a Noise-Reduction Signal Processing Method, Muping Song1, Ying Wu1, Weiji Zhu1, Shouwang Zhuang1 and Yixuan Wang1, 1Zhejiang Univ., China. A coherent optical time-domain reflectometry (COTDR) for 62km long-distance distributed temperature sensing is demonstrated experimenttally. A noise- reduction signal processing method is adopted to improve the detecting accuracy effectively.

Su2A.187 Novel Phase Difference Signal Proce- ssing Technology in Surface Plasmon Resonance Sensing System, Zhenguo Jing1, Yueying Liu1, Bin Wang1, Peng Song1, Ang Li1 and Wei Peng1, 1Dalian Univ. of Technology, China. The phase difference signal processing technology of a phase modulated surface plasmon resonance (SPR) sensing system is optimized. The fluctuation of phase difference is less than 0.006° and resolution can reach 4.7×10-7 RIU.

Su2A.188 Passively Q-switched Er-doped fiber laser based on NbSe2 quantum dot saturable absorber, Yihuan Shi1, Wenjia Li1, Wei Lü1 and Qiao Wen1, 1Shenzhen Univ., China. In this work, an all-fiber passively Q-switched Er-doped fiber laser (EDFL) is firstly demonstrated by using NbSe2 quantum dot as a saturable absorber (SA). The results indicate that Nb-Se2 quantum dot has excellent saturable absorption properties.

Su2A.189 Vector linear prediction based two-dimensional quantization for digitized radio-over-fiber system, Yi Guo1, Jia Ye1, Lianshan Yan1, Wei Pan1, Xihua Zou1 and Hui Yang1, 1Southwest Jiaotong Univ., China. A two-dimensional vector quantization scheme utilizing vector linear prediction for digitized radio-over-fiber system is proposed. The EVM performance of the DRoF system is improved by using the proposed quantization scheme with the same quantization bits.

Su2A.190 High-Q Optical Filter Based on Mul- ti-nanohole Micro-ring Resonator, Nishan Wu1 and Li Xia1, 1Huazhong Univ. of Science and Technology, China. A new structure based on multi-nanohole micro-ring resonator is proposed to realize the quality factor of 190,000 and the extinction ratio of 34.87dB, and good linearity is also shown in refractive index sensing.

Su2A.191 Highly Linear Graphene Modulator Based on Silicon Waveguide for Integrated Microwave Photonics, Yuansheng Tao1, Haowen Shu1, Zhennan Wu1, Ming Jin1 and Xingjun Wang1, 1Peking Univ., China. "We demonstrated the highly linear graphene modulators based on silicon waveguide employing the electro-absorption and electro-refractive effect of graphene, with the spurious-free dynamic range (SFDR) of 109.55 dB·Hz2/3 and 121.05 dB·Hz2/3”

Su2A.192 Measurement of Crosstalk between LP- 01 and LP11 Modes in a Two-mode Fiber Link by Using Backscattered Power, Masaharu Ohashi1, Kouhei Omote1, Yuji Miyoshi1 and Hirokazu Kubota1, 1Osaka Prefecture Univ., Japan. We propose a simple technique for measuring mode crosstalk between LP01 and LP11 modes using backscattered power. The mode crosstalk of each fiber in a fiber link is successfully estimated by the proposed technique.

Su2A.193 A Novel Dynamic Bandwidth Allocation Algorithm for NG-PON based on QoS and SLA, Xing Xu1, Bo Liu2, Lijia Zhang1, Yaya Mao2, Xiangyu Wu1, Jianxin Ren1, Bo Tian1, Ying Zhang1 and Xiangjun Xin1, 1Beijing Univ. of Posts and Telecommunications, China; 2Nanjing Univ. of Info- rmatinon Science and Technology, China. This paper proposes a novel dynamic bandwidth allocation algorithm in NG-PON. Simulation results show the favorable performance with lower average packet delay and higher network utilization.

Su2A.194 Terahertz Generation and Measurements with AgGaSe2 Crystal, Qijun Liang1, Peng Qin1 and Naijin Liu1, 1China Academy of Space Technology, China. The complex refractive index of AgGaSe2 crystal is quantitatively determined using terahertz time-domain spectroscopy. The birefringence dependence of the generated terahertz radiation from AgGaSe2 crystal is also demonstrated.

Su2A.195 Two-thirds frequency division enabled by an optoelectronic oscillator, Jianing Zhao1, Shifeng Liu1, Kailin Lv1, Wansheng Pan2 and Shilong Pan1, 1Nanjing Univ. of Aeronautics and Astronautics, China; 2Suzhou LiuYaoSi Information Techno- logies Co., Ltd, China. A two-thirds frequency divider based on the cascade of a Mach-Zehnder modulator (MZM) and an MZM-based optoelectronic oscillator (OEO) is proposed and experimentally demonstrated.

Su2A.196 Sensitivity-enhanced Fabry-Perot filled with PDMS temperature sensor based on Vernier effect, Leyi Hou1, Ben Xu1, Juan Kang1, Chunliu Zhao1 and Shangzhong Jin1, 1China Jiliang Univ., China. A modified FP temperature sensor filled with PDMS based on Vernier effect is studied. Experimental result shows sensitivity is 1.808 nm/℃, which is a double improvement of the sensitivity compared with the sensor without modified.

Su2A.197 Random Laser with Erbium-Doped Fib- er and fs-Laser Introduced Random Fiber Grating, Jingxuan Song1 and Xinyong Dong1, 1China Jiliang Univ., China. A novel random fiber laser is demonstrated by using erbium-doped fiber as gain media, a fs-laser introduced random fiber grating to provide random distributed feedback and a strong chirped-fiber Bragg grating to form half-cavity configuration.


Sunday, 28 October


Poster Session

Su2A.198 A tunable multi-wavelength fiber laser based on polarization maintaining microfiber, Minling Du1, Jijing Chen1, Peiyuan Wang1, Hongdan Wan1 and Zuxing Zhang1; 1Nanjing Univ. of Posts and Telecommunications, China; 2Nanjing Univ. of Informatinon Science and Technology, China. A tunable fiber laser based on polarization maintaining microfiber is proposed. The wavelength number is switched from 1~4 with a tuning range of 41.7 nm and a highest signal-to-noise-ratio of 54 dB.

Su2A.199 Research on tunable EVM digital signal generation system, Qinghua Yu1, Bin Qiu1, Xiaoqing Shen1, Si Chen1 and Wei Xia1, 1China Satellite Maritime Tracking and Control Department, China. To generate a tunable EVM signal, an analytical relation between SNR and EVM is derived. A system based on digital signal generator and noise generator is proposed. The output of the system is excellent.

Su2A.200 Bandwidth Tunable, Dispersion-managed Mode-locked Thulium/holmium Fiber Laser, Hanning Chen1, Yafei Meng1, Yao Li1, Ruihong Dai1, Jiarong Qin1, Yongbing Xu1 and Fengqiu Wang1, 1Nanjing Univ., China. Bandwidth tunable and dispersion managed mode-locked thulium/holmium fiber laser was obtained by using carbon nanotubes as the saturable absorber. Its pulse width is possible to be compressed to sub 100 fs.

Su2A.201 Relative Humidity Sensor Based on Molybdenum Disulfide Nanosheets Modified Microfiber Coupler, Yuting Bai1 and Yinping Miao1, 1Tianjin Univ. of Technology, China. A relative humidity sensor is proposed using a microfiber coupler coated a single layer of Molybdenum disulfide (MoS2) nanosheets. The sensitivity of the sensor is 115.3 pm/%RH in the range of 54.0%RH- 93.2%RH.

Su2A.202 Efficient Aerial Relays Deployment in FSO-based Backhaul Networks, Yuhang Zhou1, Jiawei Zhang1, Zhiqun Gu1 and Yuefeng Ji1, 1State Key Lab of Information Photonics and Optical Communications,Beijing Univ. of Posts and Telecommunications (BUPT), China. We jointly optimize network flying platforms (NFPs) deployment and free space optics (FSO) topology formation to minimize the number of NFPs. Moreover, we propose a heuristic algorithm which provides similar performance and lower complexity.

Su2A.203 Performance analysis of OCDMA-W-DM-PON system with hyperchaotic sequences, Liwei Yang1, Suqi Shi1 and Wenjie Zhang2, 1China Agricultural Univ., China; 2Minan Mormal Univ., China. We propose and demonstrate a multiuser PON combining with OCDMA. Chaotic sequences are investigated to provide new path for encoding. Simulation results indicate that the proposed scheme can offer high capacity and good transmission performance.

Su2A.204 Application of polarization-maintaining fiber in semiconductor scanning laser fiber FP sensing system, Ang Li1, Zhenguo Jing1, Yueying Liu1, Zhiyuan Huang1, Wei Peng1 and Dapeng Zhou1, 1Dalian Univ. of Technology, China. The single-mode fiber that transmits information is changed to a polarization-maintaining fiber. Then the accuracy of the sensor is reduced from 10% to 1%, which ensures the accuracy and stability of the experimental data.

Su2A.205 Giant bright pulses generation in an anomalous dispersion erbium-doped fiber laser with a long cavity, Peiyun Cheng1, Xuewen Shu1 and Yueqing Du1, 1Wuhan National Laboratory for Optoelectronics&School of Optical and Electronic Information, China. A giant bright pulse train caused by self-mode- locking (SML) has been observed in an anomalous dispersion erbium-doped fiber ring laser with a long cavity.

Su2A.206 Two-layer Erbium Doped Annular Photonic Crystal Fiber Amplifier for Orbital Angular Momentum Multiplexing System, Di Han1, Hu Zhang1, Lixia Xi1, Xiaoguang Zhang1, Wenbo Zhang1 and Xianfeng Tang1, 1Beijing Univ. of Posts and Telecommunications, China. A fiber amplifier with two-layer erbium-doped in photonic crystal fiber’s ring region was designed for orbital angular momentum mode-division multiplexing system. It can amplify 18 modes simultaneously while differential mode gain lower than 0.1dB.

Su2A.207 Generation of OAM Modes by Using Tapered Lensed Single Mode Fiber, Wei Song1, Junfeng Yang1, Huanhuan Liu1, Fufei Pang1, Haoqiang Zheng1, Jianxiang Wen1, Na Chen1, Xianglong Zeng1 and Tingyun Wang1, 1Shanghai Univ., China. We demonstrate an improvement of generating the first-order OAM mode in single-ring fibers by offset method using a tapered lensed SMF. The coupling efficiency reaches 70%, which is 10% higher than offset with normal SMF.

Su2A.208 Crosstalk-reduced OCDM System using Time-extended Multi-level QAM-based Optical Codes, Takahiro Kodama1 and Gabriella Cincotti2, 1Univ. of Yamanashi, Japan; 2Univ. Roma Tre, Italy. Multi-level QAM-based code for asynchronous 16-code x 10 Gb/s, OOK-OCDM system is proposed. We show the performance improvement by reducing a crosstalk between optical codes compared to the multi-level PSK-based code.

Su2A.209 Robust controllable FD-FWM based Micro-combs, Hualong Bao1, Andrew Copper1, Luigi Di Lauro1, Maxwell Rowley1, Benjamin Wetzel1, Sai Tak Chu2, Dave J Moss3, Roberto Morandotti4, Brent E. Little5, Marco Peccianti1 and Alessia Pasquazi1, 1Univ. of Sussex, United Kingdom; 2City Univ. of Hong Kong, Hong Kong; 3Swinburne Univ. of Technology, United Kingdom; 4INRS-EMT, United Kingdom; 5Chinese Academy of Science, United Kingdom. The FD-FWM is a proven approach to implement coherent Micr- ocomb generation. Comb repetition rates can be finely controlled, while maintaining the coherence during the whole process, whereas full-coherent type-I and type-II combs can be accessible.

Su2A.210 Performance Analysis of FSO systems over Unified Exponentiated Weibull Channels, Zhengguang Gao1, Jiawei Zhang1 and Yuefeng Ji1, 1State Key Lab of Information Photonics and Optical Communications, Beijing Univ. of Posts and Telecommunications (BUPT), China. The complete and asymptotic performance analysis of FSO system over exponentiated Weibull fading channel is presented. The results are accurate and concise, which has reference value for the design of FSO systems.

Su2A.211 Integration of vertical-cavity surface- e-emitting laser on silicon photonic circuits using tilted membrane based grating couplers, Xueqin Wen1, Ziliang Ruan1, Yuntao Zhu2, Xinlun Cai2, Pengxin Chen1 and Liu Liu1, 1South China Normal Univ., China; 2Sun Yat-sun Univ., China. We demonstrate the integration of vertical- cavity surface-emitting laser (VCSEL) with silicon photonic chip using flip-chip bonding technique. 0.66 mW power is coupled in the silicon waveguide at a bias current of 10 mA.

Su2A.212 Graphene Based Silicon Microdisk Modulator, Ming Jin1, Haowen Shu1, Yuansheng Tao1, Zhennan Wu1 and Xingjun Wang1, 1Peking Univ., China. A silicon microdisk modulator with graphene-oxide-graphene (GOG) structure is proposed. An extinction ratio up to 28dB around 1557.25nm is achieved within a compact size. The ideal power consumption is as low as 125fJ/bit.

Su2A.213 Experimental Demonstration of QPSK Optical Transmission with Optical Phase Conjugation, Wenjing Zhou1, Xingwen Yi2, Jing Zhang1, Yang Jiang1, Wenjing Zhang1 and Kun Qiu1, 1Univ. of Elec. Scie.&Tech. of China, China; 2Sun Yat-Sen Univ., China. We experimentally demonstrate the nonlinear impairment mitigation of quadrature phase shift keying signals through mid-link optical phase conjugation. We achieve 0.45dB improvement of Q-factor in a 50km transmission link, which also matches the simulation results.

Su2A.214 Investigation of the wavelength selection for the free space optical communication system, Tao Liu1, Jingzhi Zhang1, Cong Zhu1, Yanxu Lei1, Chunyang Sun1 and Rongxiang Zhang2, 1North China Electric Power Univ., China; 2Hebei Univ., China. We find a suitable wavelength for free space optical communication transmission. The simulation result reveals that the wavelength of 4000nm is more suitable for FSO communication compared to other wavelengths.

Su2A.215 Real-time monitoring vascular targeted PDT efficacy with multimode optical imaging technologies, Fuqiang Liang1, Yi Shen1 and Buhong Li1, 1fujian normal Univ., China. V-PDT is effective for the clinical treatment of vascular-related diseases. In order to elucidate the mechanisms of V-PDT, the spatio-temporal characteristics of rose Bengal (RB) was monitored using a custom developed multimode imaging system.

Su2A.216 Silicon anti-symmetric multimode periodic waveguide cavities, Jiaxin Qian1, Kai Li1, Qifeng Dong1, Weijie Wang1, Huiye Qiu2 and Ping Yu1, 1Zhejiang Univ., China; 2Longyan Univ., China. Anti-symmetric multimode periodic waveguide cavities are proposed and demonstrated in this paper. Reflection-free cavity filters based on anti-crossing of the fundamental mode and 1st-order mode are demonstrated.

Su2A.217 Silicon add-drop filter for WDM optical interconnects, Huiye Qiu1, Junnan Wan1, Ping Yu2, Ying Wang1 and Jing Lv1, 1Longyan Univ., China; 2Zhejiang Univ., China. A novel silicon add-drop filter based on apodized grating- assisted contra-directional couplers is demonstrated. The add-drop filter is appropriate for silicon wavelength division multiplexing optical interconnects.


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Poster Session

Su2A.218 Ultra-high quantum efficiency mushroom-type RCE photodetector, Shuai Zhang1, Xiaofeng Duan1, Gongqing Li1, Yongqing Huang1, Xiaomin Ren1 and Kai Liu1, 1Beijing Univ. of Posts and Telecommunications, China. Ultra-high quantum efficiency mushroom-type RCE photodetector is reported.The peak quantum efficiency of the detector is 99.38%, the line width is 0.7 nm, and the 3 dB bandwidth is 31.1 GHz.

Su2A.219 A Novel Timing Synchronization Algorithm for CO-OFDM systems, Yanpeng Xu1, Jianfei Liu1, Xiangye Zeng1 and Jia Lu1, 1Hebei Univ. of Technology, China. To solve the ambiguity of timing synchronization in CO-OFDM system, a novel method is proposed by combining CAZAC and PN as a training sequence, it demonstrated a good MSE performance and a better dispersion tolerance.

Su2A.220 Mitigation of modulation distortion in wideband and multi-carrier analog photonics links based on artificial neural network, En Ji Liu1, Zhen Ming Yu1 and Kun Xu1, 1Beijing Univ. of Posts and Telecommunications, China. In order to re- move nonlinear modulation distortion ex- isted in ROF system, we propose a novel method, which using artificial neural networks (ANN) to mitigate intermodulation distortions and cross modulation distortions at the same time.

Su2A.221 High efficiency and polarization insensitive two-dimensional grating coupler on silicon, Bin Chen1, Xian Zhang1, Xueqin Wen1, Ziliang Ruan1, Yuntao Zhu1 and Liu Liu1, 1South China Normal Univ., China; 2Longyan Univ., China. We design a two-dimensional grating coupler with high efficiency and low polarization dependent loss. An efficiency of -1.76dB at O-band is realized and the PDL is reduced to 0.2dB in a wavelength range of 67nm.

Su2A.222 An Intra-rack OTS/EPS Hybrid Network Based on Flow Identification in Cloud Data Center, Zhiwen Zhu1, Weiguo Ju2, Bingli Guo1, Shanguo Huang1, Yu Shang1 and Yuan Yuan2, 1Beijing Univ. of Posts and Telecommunications, China; 2China Information Consulting&Designing Inst. CO.,LTD, China. An intra-rack OTS/EPS hybrid network based on flow identification is proposed together with protocol and timeslot allocation algorithm. Mice flows delay can be reduced by 17% and elephant flows completion can be improved by 23%.

Su2A.223 A Kalman Scheme for Polarization De- multiplexing in Presence of Residual Chromatic Dispersion, Wei Yi1, Zibo Zheng1, Xiaoguang Zhang1, Nan Cui1, Lixia Xi1 and Wenbo Zhang1, 1Beijing Univ. of Posts and Telecommunications, China. Facing up to low tolerance of CD in using Kalman filter based PolDemux algorithms, we propose a new Kalman PolDemux scheme which can track ultra-fast rotation of SOP in fibers in presence of residual CD.

Su2A.224 Experimental Demonstration of Time Lens Based on Digital Frequency Sweeping, Wei Tang1, Xingwen Yi2, Jing Zhang1, Fan Li2, Xiatao Huang1 and Kun Qiu1, 1Univ. of Elec. Sci.&Tech. of China, China; 2Sun Yat-Sen Univ., China. We propose and experimentally demonstrate the time lens based on digital frequency sweeping. Time aperture reaches nanosecond and the figure of merit can be hundreds, which are the largest by electro-optical modulation.

Su2A.225 Event Identification by PCA-PNN for φ-OTDR Fiber-optic Distributed Disturbance Sensor, Ailun Zhang1, Sheng Liang1 and Shuqin Lou1, 1Beijing Jiaotong Univ., China. In order to reduce the nuisance alarm rate (NAR), an event identification method by the principal component analysis (PCA) and probabilistic neural network (PNN) is proposed for φ-OTDR.

Su2A.226 Demonstration of Network Slicing in Mobile Edge Computing Service Migration, Zihao Wang1, Rentao Gu1, Geng Zhang2, Tianyi Zhao1, Yanan Wang2, Yang Wang2 and Yuefeng Ji1, 1Beijing Univ. of Posts and Telecommunications, China; 2China Electric Power Research Inst., China. This paper proposes a SDN-based cross-layer network slicing architecture for service migration in the mobile edge computing infrastructure. Experimental demonstration shows that the scheme realizes cross-layer resource slicing and service migration isolation capabilities.

Su2A.227 F-P Interferometer for Low Liquid Velocity Measurement with Non-contact and High Sensitivity, Qian Zhang1, Dewen Hou1, Lin Wang1, Yu Zhao1, Chunliu Zhao1 and Juan Kang1, 1China Jiliang Univ., China. A low liquid velocity sensor composed by a capillary vertically inserted in PTFE (Polytetrafluoroethylene) tube has been proposed and realized with high sensitivity. The achieved sensitivity to liquid velocity is 0.0016nm/( μL/min ).

Su2A.228 Gold nanosell immobilized excessively tilted fiber grating biosensor, Huafeng Lu1, Jiao Lu1, Binbin Luo1, Shenghui Shi1 and Mingfu Zhao1, 1Chongqing Univ. of Technology, China. A localized surface Plasmon resonance (LSPR) biosensor using gold nanosell immobilized excessively tilted fiber grating (ExTFG) was proposed, the limit of detection (LOD) of the biosensor for bovine serum albumin (BSA) is 0.075pM.

Su2A.229 Spontaneous Brillouin scattering threshold analysis based on n-FSK modulation, Jingjing Xu1, Xiaobin Hong1, Sheng Wang1, Xizi Sun1, Xia Gao1 and Jian Wu1, 1Beijing Univ. of Posts and Telecommunications, China. We propose a spontaneous Brillouin scattering threshold estimation model based on n-FSK modulation. The relationship between threshold and number of tone is investigated. The validity of the threshold estimation model is proved through experiments.

Su2A.230 Construction of Irregular QC-LDPC Codes via Arbitrary Degree Distribution Masking Algorithm, Fu Yang1, Liqiang Wang1, Dongdong Wang1, Xue Chen1 and Midou Cui1, 1Beijing Univ. of Posts and Telecomunication, China. We propose a masking algorithm to optimize the girth and the number of short cycles in LDPC codes of superposition construction. Simulation results show the codes can improve 0.3 dB performance without the implementation cost.

Su2A.231 Arbitrary polarization conversion from 0° to 90° based on all-dielectric metasurfaces, Xiaodong Cai1, Zhiwei Li1, Yongjiu Li1, Kai Wang1, Dunke Lu1 and Yunbing Wei1, 1Shanghai Univ. of Eng- ineering Science, China. Here we investigate the arbitrary conversion of transmitted linear polarized light from 0° to 90° based on all-dielectric metasurfaces. The simulation results show that proposed polarization converter can obtain transmitted light with desired polarization angle.

Su2A.232 Experimental study of the atmospheric turbulence influence on FSO communication system, Xiaolong Ni1, Haifeng Yao1, Zhi Liu1, Chunyi Chen1, Ce Meng1 and Jiaxu Zhao1, 1Changchun Univ. of Science and Technology, China. In order to analyze the effect of the atmospheric turbulence on FSO communication, a three-month experiment of 100Mbps and 500Mbps FSO communication has been carried out, on a 6.2km links, the results have been given.

Su2A.233 A Novel Filter Based on a Subwavelength Grating Focusing Reflector and a DBR, Shaojuan Mao1, Yongqing Huang1 and Hongming Gu1, 1Beijing Univ. of Posts and Telecommunications, China. A filter composed of a focusing grating reflector and a DBR is investigated. The full width at half maximum is ∼1.0172nm with a wide tuning range of 31.5nm and side mode suppress ratio of 8dB.

Su2A.234 Impact of Initial Pulse Shape on Spectral Compression in Nonlinear Fibers with Exponentially Increasing Dispersion, Jiaxi Cheng1, Xiaolong Yuan1 and Qian Li1, 1School of Electronic and Computer Engineering, China. We numerically investigate impact of different initial pulse shapes on spectral compression in nonlinear fibers with exponentially increasing dispersion.

Su2A.235 Carbon Nanotubes Coated Tilted Fiber Bragg Grating for Breeze Sensing and Human Breath Monitoring, Yuke Liu1 and Tuan Guo1, 1Jinan Univ., China. We present a fiber-optic hot-wire anemometer for breeze sensing based on a carbon nanotubes coated tilted fiber Bragg grating. This type of sensor could be used for human breath monitoring for its short response time.

Su2A.236 Simultaneous measurement of refractive index and temperature by M-Z interferometer cascaded with a FBG, Mingyang Xie1, Huaping Gong1, Jun Zhang1 and Yongxing Jin1, 1China JiLiang Univ., China. An optical fiber sensor is demonstrated for simultaneous measurement of refractive index (RI) and temperature. The sensor possesses the advantages of easy fabrication, good robustness and high sensitivity.

Su2A.237 Switchable dual-mode all-fiber laser by using LPG and FBG, Tingting Yan1, Wenhua Ren1 and Youchao Jiang1, 1Beijing Jiaotong Univ., China. We experimentally demonstrate a ring optical fiber laser with two order transverse modes output. The mode switch is realized by a filter that constructed by a cascaded long period grating and fiber Bragg grating.


Sunday, 28 October


Poster Session

Su2A.238 Sensitive Liquid Sensing Using Ro- lled-Up InAs/GaAs Quantum Dot Microtube Ring Resonator, Jiawei Cao1, Qi Wang1, Zhaoer Chai1, Yunxuan Zhu1, Hao Liu1, Kai Liu1 and Xiaomin Ren1, 1Beijing Univ. of Posts and Telecom- munications, China. We fabricate QD microtube resonators, and use them as whispering gallery mode liquid sensors. A maximum sensitivity of 5000 nm/RIU and a detection limit of 10-5 RIU are achieved during detecting low salinity NaCl solutions.

Su2A.239 Research on refractive index sensor based on multi-core micro-nano fiber, Yue-Feng Qi1, Jin Zhang1, Yan-Tao Wang1, Qi Feng1, Xin Zhang1, Ming-Jun Wang1 and Yan-Yan Liu1, 1Yanshan Univ., China. The multi-core micro-nano fiber sensor suitable for low refractive index solution is studied, establishing a finite element model to analyze its mode field distribution. Study the refractive index and temperature sensitivity of different specifications’ sensors.

Su2A.240 Experimental Research on Tunable Narrow linewidth DFB Laser Arrays Utilizing Equivalent Apodization Sampled Gratings, Yunshan Zhang1, Lianyan Li1, Zuye Lu2, Jie Zeng2, Jilin Zheng3 and Xiangfei Chen2, 1Nanjing Univ. of Posts and Telecommunications, China; 2Nanjing Univ., China; 3PLA Army Engineering Univ., China. A tunable DFB laser array with 12.34-nm wavelength range and <307 kHz linewidth utilizing the equivalent apodization sampled grating is demonstrated. The side mode suppression ratio is larger than 42 dB.

Su2A.241 Connectivity Enhancement of Edge Computing over Fiber-Wireless Access Networks for IoT, Jing Liu1, Guochu Shou1 and Junli Xue1, 1Beijing Univ. of Posts and Telecommunications, China. This paper proposes a connectivity enhancement scheme of edge computing over fiber-wireless access networks based on network virtualization. The simulation results show that our scheme is significantly better in terms of delay and load balancing.

Su2A.242 A pair of integrated optoelectronic chips for optical interconnects, Qi Wei1, Kai Liu1, Yongqing Huang1 and Junwei Luo1, 1Beijing Univ. of Posts and Telecommunications, China. A pair of integrated optoelectronic chips based on VCSEL (Vertical-Cavity Surface-Emitting Laser) and PIN-PD is proposed for optical interconnects. The matched chips can realize bi-directional communications on a single fiber.

Su2A.243 Integrating periodically CL-TWE MZI electro-optic modulator based on In- P-MQW optical waveguides, Guang Qian1, Bin Niu1, Wu Zhao2, Xiao-Wen Gu1, Feng-Jie Zhou1, Guan-Yu Li1 and Yue-Chan Kong1, 1Nanjing Electronic De- vices Inst., China; 2Inst. of Semiconduct- ors, Chinese Academy of Sciences, China. We reported the design, fabrication and preliminary measurements of an large-bandwidth integrating periodically capacitive-loaded travelling wave electrode (CL-TWE) Mach-Zehnder interferometer (MZI) modulator based on InP-based multiple quantum well (MQW) optical waveguides.

Su2A.244 An Broadband Pulsed Optical Switch from Near-Infrared to Mid-Infrared Employing Multilayer Antimonene, Xiangling Tian1, Rongfei Wei2 and Jianrong Qiu3, 1South China Univ. of Technology, China; 2Zhejiang Normal Univ., China; 3State Key Laboratory of Modern Optical Instrumentation, China. We demonstrate short pulse generation in infrared spectral region by using multilayer antimonene. The results indicate multilayer antimonene is a type of promising stable saturable absorber which can be used in the infrared spectral region.

Su2A.245 Schemes of High-Order Pulse Modulations for Gamma-Gamma Channel Free-Space Optical Communication, Meiyong Xu1, Kaimin Wang2, Sijie Huang3, You Yong2, Xiongfei Fan2 and Xiangjun Xin1, 1Beijing Univ. of Posts and Tele- communications, China; 2Univ. of Shang- hai for Science and Technology, China; 3TheThird Research Inst. of Ministry of Public Security, China. Schemes of high-order amplitude and pulse position modulations and amplitude and digital pulse interval modulations free-space optical communication system under gamma-gamma channel are proposed and simulated. Then the bit/slot-error-rate performance is simulated for further research.

Su2A.246 Improving the Nonlinear Limitation of RoF Link by Using LP01 and LP11 Simultaneously, Pengyue Deng1, Guanjun Gao1, Ruihuan Wu1, Cheng Xu1, Yifan Shen1 and Jie Zhang1, 1Beijing Univ. of Posts and Telecommunications, China. We demonstrate the MDM-based analog fiber link to further reduce nonlinearity. When launch power is 18dBm, MDM-based link increases the SFDR by 6.6dB compared with using LP01 mode only in FMF.

Su2A.247 Underwater Wireless Optical Comm- unication with High Modulation Level Based Stream Cipher, Yawen Shang1, Wenyan Mao1, Mengxiang Han1, Cheng Xu1 and Guanjun Gao1, 1Beijing Univ. of Posts and Telecommunications, China. We demonstrate QAM-based stream cipher (QSC) for underwater wireless optical communication (UWOC) employing orthogonal frequency division multiplexing (OFDM) Modulation. Experimental results show Q performance using QSC has only 1dB penalty compared to QPSK without encryption.

Su2A.248 Optical Power Dependence of Capacitance in Uni-Traveling-Carrier Photodetectors, Xiaokai Ma1, Yongqing Huang1, Yanwei Yang1, Tao Liu1, Xiaofeng Duan1 and Xiaomin Ren1, 1State Key Laboratory of Information Photonics and Optical Communications, BUPT, China. Optical power dependence of capacitance in uni-traveling- carrier photodetectors was analyzed by a model for capacitance calculation. The relationship between light-intensity-dependent capacitance and DC saturation characteristics of the device was found through the experiments and simulations.

Su2A.249 Nonlinear Gain and Optical Bistability in Novel GaInNAs Vertical-Cavity Semiconductor Optical Amplifiers, Yun Sun1, Adams Michael2, Meng Xun1, Dexin Wu1, Zhi Jin1 and Xinyu Liu1, 1Inst. of Microelectronics of Chinese Academy of Science, China; 2Univ. of Essex, United Kingdom. The nonlinear gain properties of GaInNAs vertical-cavity semiconductor optical amplifier are reported. A step-like differential gain and anticlockwise bistability are predicted. The dependence of the optical bistability on applied current and phase detuning are observed.

Su2A.250 Capacity of Multi-Core Fiber with Maximum-Ratio Combining Optical Receiver Diversity, Amira Hussein1, Ziad El-Sahn1 and Hossam Shalaby1, 1Faculty of Engineering, Egypt. Balance between spatial capacity and diversity in a multi-core fiber system adopting maximal-ratio combining receiver is studied. Compared to standard single-mode fiber, the bit-error rate is improved when partially sharing multi-core fiber cores among users.

Su2A.251 Constructing Satellite Backbone Net- work via Timeslot-based Optical Switching, Qing Zhang1, Hongxiang Guo1, Cen Wang1 and Jian Wu1, 1Beijing Univ. of Posts and Telecommunications, China. We propose a satellite backbone network through the timeslot-based optical switching, which can provide high capacity and low latency. Through simulation, we analyzed two key performance indicators to contribute the optimal implementation of this architecture.

Su2A.252 Tunable Laser Based on Multi-stack Chirped InAs/InP Quantum-dash Active Region, Emad Alkhazraji1, Mohammed Zahed Khan1 and Mohd Sharizal Alias2, 1King Fahd Univ. of Petroluem and Minerals, Saudi Arabia; 2King Abdullah Univ. of Science and Technology, Saudi Arabia. Two-sectioned quantum dash laser is demonstrated as a monolithic, continuously electrically tunable source. Altering negative (positive) bias voltage on the absorber section showed a 4.2-nm blue-shift (4.5-nm red-shift) with a total broadband tunability of 8.7-nm.

Su2A.253 Exploiting Core-Switching to Minimize Fronthaul Degradation using Multicore Fiber, Swapna Doddikrinda1, Andrea Marotta1, Dajana Cassioli1, Cristian Antonelli1, Koteswararao Kondepu2 and Luca Valcarenghi3, 1Univ. of L'Aquila, Italy; 2Scoula Superiore Sant'Anna, Italy; 3SSSUP, Italy. Fronthaul connections carried by Multicore Fibers (MCFs) might experience different degradations if they are carried by different cores. This paper shows that switching fronthaul connections between the cores helps to minimizing the fronthaul service degradation.

Su2A.254 Highly-efficient 1.5 um optical parametric oscillator based on MgO:PPLN, Shutong Wang1, Palidan Aierken1, Sujian Niu1 and Taximaiti Yusufu1, 1Xinjinag Normal Univ., China. We investigate a milli-joule level near-infrared MgO: PPLN optical parametric oscillator. The maximum near-infrared 1.5 µm output energy reached 5.6 mJ at the pump energy of 22.5 mJ, corresponding to a conversion efficiency of 25%.

Su2A.255 Study on measurement method of hollow fiber Raman spectrum detection on liquid sample, Yuan Liu1, Jinyu Wang1, Zhen Li1, Jiqiang Wang1, Yanong Ning1 and Tongyu Liu1, 1Laser Inst., Qilu Univ. of technology (Shandong Academy of Sciences), China. In this paper reported a hollow-core fiber as the liquid sample detection probe to transmit the exciting light and collect the Raman signal. Its various parameters were experimentally studied to optimise the Raman detection method.


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Poster Session

Su2A.256 Light Disturbance in Photodetector Simulation for Vehicle-to-Vehicle Visible Light Communi- cation, Yung Hun Jung1, Jae Yoon Lee1, Yongbeom Cho1, Seongjae Cho1, Hoon Heo2 and Yun Hyun Cho2, 1Gachon Univ., South Korea; 2Korea Univ., South Korea. In this study, a Si PIN photodetector and its array are designed by device simulation for the applications in visible-light communication (VLC), with the consideration of various light condition scenarios obtained by experiments.

Su2A.257 Chaotic Generator in Wavelength Using Tunable Laser with Fiber Bragg Grating, Guohui Lv1, Bohan Luan1, Huiying Wang1, Yan Zhang1, Chaozheng Wang1 and Xu Jiang1, 1Heilongjiang Univ., China. We use tunable laser, FBG and hybrid delayed feedback loop to constitute a chaotic generator in wavelength. The chaos behaviors are observed by experiments.

Su2A.258 Simulation design of fiber Bragg grating resonant sensor for train bearing damage detection, Guohui Lv1, Yali Jiang1, Chaozheng Wang1, Jushang Zhao1, Guohang Che1 and Xu Jiang1, 1Heilongjiang Univ., China. We propose a resonance and temperature composite fiber Bragg grating resonant sensor (FBG-RS) basing on resonance detection principle, and determine that the natural frequency of resonance sensor is 18.8 kHz through Ansys simulation.

Su2A.259 High Upstream Bandwidth Utilization DWBA Algorithm for NG-EPON with Heterogeneous Propagation Delays, Xujia Wu1, Wei Wang1 and Wei Guo1, 1Shanghai Jiao Tong Univ., China. This paper proposes a DWBA algorithm that takes ONUs’ scheduling orders, the wavelength assigned to ONU and the grant size of ONU on the wavelength into account for NG-EPON, which provides high upstream bandwidth utilization.

Su2A.260 Adaptive Neural Network Tuned PID Controller for Low-Power DFB Laser, Gendi Zhou1, Minglun Zhang1 and Youyuan Sun1, 1Beijing Univ. of Posts and Telecommunications, China. We designed an adaptive neural network tuned PID controller to maintain the instability of the DFB laser’s power (800uW) within ± 0.0014 dB for 15 minutes and ± 0.009 dB for 9 hours.

Su2A.261 A Robust Low-complexity Symbol Sy- nchronization Method Based on Bipolar NRZ Sequence for IMDD OFDM-PON, Junjie Peng1, Tingting Xu1, Xuejun Xiong1, You Sun1, Sen Tian1 and Junjie Zhang1, 1Shanghai Univ., China, 2Inst. of Semiconductors, Chinese Academy of Sciences, China. A robust low-complexity symbol synchronization method based on Bipolar NRZ with new accuracy criteria is proposed which achieved the high precision of 99.5% when the ROP as low as -20dBm in asynchronous IMDD OFDM-PON.

Su2A.262 Experimental Demonstration of 3-bit All-optical Quantization Based on Slicing Supercontinuum Spectrum, Rui Ma1, Kuiru Wang1, Shipei Jing1, Chao Mei1, Jinhui Yuan1, Chongxiu Yu1, Binbin Yan1 and Xinzhu Sang1, 1Beijing Univ. of Post and Telecommunication, China. In this paper, we describe an all-optical quantization scheme for analog-to-digital conversion, which is realized by slicing the supercontinuum spectrum with filters. We experimentally demonstrate a 3-bit all-optical quantizer.

Su2A.263 Effect of the Yb3+ on fluorescence lifetime of Er-doped silica optical fiber, Qian Wang1, Jianxiang Wen1, Fufei Pang1, Zhenyi Chen1, Yanhua Luo2, Gang-Ding Peng2 and Tingyun Wang1, 1Shanghai Univ., China; 2The Univ. of New South Wales, Australia. Effect of the Yb3+ on fluorescence lifetime of Er-doped fiber was studied. Results showed lifetime of Er/Yb co-doped fiber at 1533 nm was 11.26 ms, which is longer than 10% that of Er-doped fibers.

Su2A.264 Optimized ANN training strategy for fast and accurate fiber Brillouin frequency shift calculation, Yongxin Liang1, Ri- cheng Zhu1 and Zinan Wang1, 1Univ. of Science and Technology of China, China. ANN has been applied to replace the time-consuming process that using LCF to obtain BFS in BOTDA recently. We demonstrate that it is extremely important to add noise to simulated BGS during the training process.

Su2A.265 Tunable terahertz reflective linear polarization convertor based on oval-shape-perforated graphene metasurface, Hongtao Zhang1 and Yongzhi Cheng1, 1Univ. of Science and Technology Wuhan, China. In this paper, we design a tunable reflective linear polarization convertor based on metasurface, which can achieve cross-polarization conversion in a frequency range of 0.93-1.21 THz with a polarization conversion ratio (PCR) of over 90%.

Su2A.266 High sensitivity optical fiber temperature sensor based on active double-peanut fiber structure, Minling Du1, Jijing Chen1, Yao Chen1, Hongdan Wan1, Zuxing Zhang1 and Yudan Zhang1, 1Nanjing Univ. of Posts and Telecom- municaions, China. A fiber temperature sensor based on active double-peanut fiber structure (ADPFS) with high sensitivity is proposed. The Er-doped ADPFS has a sensitivity of 1268 pm/℃. The Yb-doped ADPFS has a sensitivity of 2343 pm/℃.

Su2A.267 Pulse dynamics in spatiotemporal mode-locked multimode fiber lasers, Xiaosheng Xiao1, Yihang Ding1 and Changxi Yang1, 1Tsinghua Univ., China. We report on the experimental observations of multiple-soliton (harmonic mode-locking, multiple pulses) and period-timing bifurcations in spatiotemporal mode-locked multimode fiber lasers. The transition from uniformity output to period-timing bifurcations, then to chaos is also observed.

Su2A.268 Excitation and Transmission of 12 OAM Modes in 3.7-km-long Ring Fiber with High Refractive Index Difference, Junfeng Yang1, Huanhuan Liu1, Jianxiang Wen1, Fufei Pang1, Na Chen, Zhenyi Chen1 and Tingyun Wang1, 1Shanghai Univ., China. We have demonstrated excitation and transmission of 12 orbital angular momentum (OAM) modes in a 3.7-km-long ring fiber with high refractive index. Such ring fiber with a graded-index ring core exhibits high refractive index difference.

Su2A.269 VNF Placement for Service Chaining in IP over WDM Networks, Zijian Yang1, Bin Chen1, Mingjun Dai1, Gongchao Su1 and Rongping Lin2, 1Shenzhen Key Lab of Advanced Communi- cations and Information Processing, Shenzhen Univ., Chin ； 2School of Communication and Information Engineering, Univ. of Electronic Science and Tech. of China, China. We combine optimization of the VNF deployment and the virtual topology in IP over WDM networks to reinforce the network energy efficiency. A path based Integer Linear Progammering (ILP) model is proposed for solving the problem.

Su2A.270 Contrallable Valley Polarized Exciton-Plasmon Polaritons in 2-dimensional semiconductors, Boyang Ding1, Zhepeng Zhang2, Yu-Hui Chen1, Yanfeng Zhang2, Richard Blaikie1 and Min Qiu3, 1Univ. of Otago, New Zealand; 2Peking Univ., China; 3Westlake Univ., China. We report the room temperature valley-polarized photoluminescence from a WS2 monolayer that is deposited on a self-assembled plasmonic crystal. More importantly we find that the degree of valley-polarization is highly dependent on excitation angles.

Su2A.271 Security Performance of Polar Codes in UV Wireless Communications, Xuetong Liang1, Min Zhang1 and Dahai Han1, 1Beijing Univ. of Posts and Telecommunications, China. In this paper we investigate the performance of low-density parity-check (LDPC) and polar codes in ultraviolet (UV) communications system in terms of the bit-error-ratio (BER) for different link spans and security gap.

Su2A.272 Color Temperature adjustable LED based on Structured fluorescent film, Shiyu Wang1, Yan Shi1 and Yi Zhuang1; 1China Jiliang Univ., China. This paper designs a color temperature adjustable LED based on structured fluorescent film which uses the structured pattern of the fluorescent film’ s thickness. We can achieving the control of LED’s color temperature.

Su2A.273 Evaluation of vortex topological charge from the Shack-Hartmann sensor raw data, Vladimir Venediktov1, Alexander Sevruygin1, Ibrohim Tursunov1 and Ksenia Gavril'Eva1; 1St.-Petersburg Electrotechnical Univ.., Russia. A method for detecting optical vortices based on sophisticated analysis of raw Shack-Hartmann sensor data using a machine learning system is proposed and investigated.



Sunday, 28 October



Su3A.1 • 13:30 From optical fibers to advanced functional fibers, Guangming Tao1; 1Hua- zhong Univ. Sci. & Tech, China. The insights emerging from both optical fiber and multimaterial fiber, along with the fabric industries are pointing to new ways that the manufacturing of advanced functional fibers itself may be leveraged as a fabrication methodology.

Su3A.2 • 14:00 Development of optical fibres with free-form nanostructured cores, Ryszard Buczynski1, Alicja Anuszkiewicz1, Marcin Franczyk1, Tomasz Stefaniuk1, Dariusz Pysz1 and Rafal Kasztelanic1; 1Inst. of Electronic Materials Technology, Poland. We present a new approach for development of an arbitrary graded index distribution in fused silica fiber based on core nan- ostructurization. A proof of concept fibers with parabolic refractive index core are discussed.


Su3B.1 • 13:30 Nano-coated optical fiber biosensors, Mateusz Smietana1; 1Warsaw Univ. of Technology, Poland. A subjective review of the most promising nano-coated optical fiber biosensors will be shown when they are targeted towards different bio- molecules, i.e., DNA, proteins, viruses, and bacteria.

Su3B.2 • 14:00 Design of Distributed Feed-back Fiber laser based Airborne Sound Detector, Xiaolei Zhang1, Faxiang Zhang1 and Yuanyuan Yang1; 1Laser Inst. Shandong Academy of Science, China. A miniature airborne sound detector with DFB fiber laser packaged in a hollw cylinder cell and fixed to a thin film at one end is designed and tested to have high sensitivity of 0.012 pm/Pa.


Su3C.1 • 13:30 Faster-than-Nyquist 16-QAM optical transmission in single-/multi-carrier systems, Fan Zhang1, Yixiao Zhu1 and Pengfei Wang1, 1Peking Univ., China. In this paper, the generation and reception scheme for FTN signal in high-speed single-/multi-carrier systems are compared with 16-QAM format. The schemes are validated in both simulation and experiment.

Su3C.2 • 14:00 Multi-impairment Compensation by Machine-Learning based Clustering for Optical 16QAM-SCFDE Transmission, Yuanxiang Chen1, Yongtao Huang1 and Jianguo Yu1, 1Beijing Univ. of Posts and Telecommunications, China. We propose BIRCH to compensate multiple linear and nonlinear impairments for optical 16QAM -SCFDE transmission systems. Compared with K-Means clustering scheme, BRICH is more appropriate for high-order modulated system with large sample number and cluster number.


Su3D.1 • 13:30 Optimum Decision of Probabilistically Shaped Constellations for Optical Fiber Transmissions, Xingwen Yi1, Jing Zhang2, Wenjing Zhang2, Shaohua Hu2, Xinning Huang3 and Zhaohui Li1, 1Sun Yat-sen Univ., China; 2Univ. of Elec. Scie.&Tech. of China, China; 3Xi’an Inst. of Optics and Precision Mechanics of CAS, China. We derive the optimum decision regions for probabilistically shaped constellations, and verify them in simulation and experiment with improved transmission performance.

Su3D.2 • 14:00 FPGA Investigation on Error-Flare Performance of FEC Codes for Optical Fiber Communications, Yi Cai1, 1ZTE TX, United States. We review FPGA based verification of forward error correction (FEC) performance down to a bit error rate of 1e−15. The effect of digital noise tail accuracy on the FEC emulation results is investigated.


Su3E.1 • 13:30 Machine learning applications in optical networks, Massimo Tornatore1; 1Politecnico di Milano, Italy. As management of optical networks (ONs) often requires time- consuming human intervention, Machine Learning (ML) is being investigated as a solution for ON-management automation. This talk introduces basic principles and current applications of ML in ONs.


13:30-15:30 Su3A • Novel Fibers & Applications II Presider: Guiyao Zhou; South China Normal Univ., China .

13:30-15:30 Su3B • Optical Fiber Sensors II Presider: Yunqi Liu; Shanghai Univ., China.

13:30-15:30 Su3C • Transmission Techniques II Presider: Hoon Kim; Korea Advanced Inst. of Science and Technology, South Korea.

13:30-15:30 Su3D • DSP Algorithms Presider: Jian Wu; Beijing Univ. of Posts and Telecommuni- cations, China.

13:30-15:30 Su3E • Machine Learning in Optical Networks Presider: Zuqing Zhu; Univ. of Science & Tech. of China, China

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Tutorial



Su3F.1 • 13:30 Solutions and Challenges for 400G Silicon Photonics, Xi Xiao1, Lei Wang1 and Shaohua Yu1; 1Wuhan Research Inst. of Posts and Telecommuncations, China. 400G is becoming the next big market driver for silicon photonics. This talk reviews the progress and challenges of practical 400G silicon photonics. Our recent work on 64Gbaud silicon transceiver PICs will also be reported.

Su3F.2 • 14:00 Highly efficient in-situ doped silicon modulators based on vertical phase shifters, Saeed Sharif Azadeh1, Florian Merget1, Bin Shen2, Nils von den Driesch2, Birgit Hadam3, Dan Buca2, Jeremy Witzens1; 1Inst. for Integrated Photonics (IPH), RWTH Aachen Univ., Germany; 2Peter Grünberg Inst. 9 (PGI9), Germany; 3Inst. of Semiconductor Electronics (IHT), RWTH Aachen Univ., Germany. We present a high efficiency Silicon Photonic plasma-dispersion modulator featuring a vertical pn-junction with highly doped epitaxial layers of silicon. We demonstrate phase shifter efficiencies of 0.37 V∙cm and optical losses of 5 dB/mm.


Su3G.1 • 13:30 Monolithically integrated phase locked semiconductor lasers, Katarzyna Balakier1, Martyn Fice1, Cyril Renaud1, Lalitha Ponnam- palam1, Frederic van Dijk2 and Alwyn Seeds1, 1Univ. College London, United Kingdom; 2III-V Lab, France. This paper will compare laser phase locking techniques: Optical Phase Lock Loop and Optical Injection Locking. Phase locked lasers included in InP-based Photonic Integrated Circuits will be discussed in the context of microwave photonics applications.

Su3G.2 • 14:00 LED for Visible Light Communi- cation, Jianli Zhang1, 1Nanchang Univ., China. Based on efficient green and yellow LEDs, color-mixing white LEDs can be made for both illumination and visible light communication, high transmission speed has been achieved.


Su3H.1 • 13:30 Measurement of nonlinear refraction in the time-domain, David Hagan1, Eric Van Stryland1; 1CREOL, Univ. of Central Florida, US. We describe the nonlinear beam deflection technique, which yields the time dependence of ultrafast nonlinear refraction. This method is highly sensitive, allowing characterization of many different materials, including solvents, gases, semiconductors and transparent conducting oxides.

Su3H.2 • 14:00 Multi-Photon Absorption and Sub-band Photo-detection with Two-Dimensional Semiconductors, Wei Ji1; 1Natl Univ Singapore, Singapore. We present our theoretical models to quantitatively predict the multiphoton absorption in two-dimensional semiconductors. We also demonstrate such multi-photon absorption for photo-detection applications. Our findings pave the way to develop sensitive infrared MoS2-based multiphoton detectors.


Su3I.1 • 13:30 Fast, noise-free memory for photon synchronization at room temperature, Eilon Poem1, Ran Finkelstein1, Ohad Michel1, Ohr Lahad1 and Ofer Firstenberg1, 1Weizmann Inst. of Science, Israel. We store 1.7 ns light pulses onto a superposition between electronic orbitals of rubidium vapor. We observe 25% external efficiency, 86 ns lifetime, and below 10^-4 added noise photons, demonstrating a room-temperature, noise-free quantum-memory.

Su3I.2 • 14:00 Magnon Kerr effect in a cavity QED system, Tiefu Li1, Yipu Wang2, Guoqiang Zhang2 and J. Q. You3, 1Tsinghua Univ., China; 2Beijing Computational Science Research Center, China; 3Zhejiang Univ., China. We report the experimental demonstration of the magnon Kerr effect in a cavity QED system, where magnons in a small yttrium-iron-garnet (YIG) sphere are strongly coupled to the microwave photons in a three-dimensional cavity.


Su3J.1 • 13:30 On Design of Reliable SDN Networks with Virtualization Cap- abilities, Ognjen Dobrijevic1; 1Univ. of Zagreb, Croatia. This talk will describe virtualization of SDN networks and the associated role of network hypervisors, discuss reliable SDN networks, and present results of the UKF project "Resilient controller and hypervisor placement for future communication networks".

Su3J.2 • 14:00 Dynamic SDN Controller Place- ment in Elastic Optical Datacenter Networks, Yong Liu1, Huaxi Gu1, Xiaoshan Yu1and Jiaying Zhou1; 1Xidian Univ., China. To solve the placement problem of SDN controllers in the elastic optical datacenter networks, we propose a dynamic matching algorithm to realize dynamic controller placement by optimizing the controller load balance.

Tianren Hall, Track 8

Su3K.1 • 13:30 Quantitative Multi-Contrast Pho- toacoustic Tomography, Zhen Yuan1; 1Univ. of Macau, Macao. Photoacoustic tomography (PAT), can directly measure the quantitative hemodynamic, metabolic, optical and mechanical parameters of biology tissues with high spatial and temporal resolution. Our work in quantitative PAT is discussed, involving exogenous and endogenous contrasts.

Su3K.2 • 14:00 Interferometric diffusing-wave spectroscopy for blood flow monitoring of the human brain, Wenjun Zhou1, Oybek Kholiqov1, and Vivek J. Srinivasan1; 1Univ. of California Davis, USA. We propose and demonstrate interferometric diffusing-wave spectroscopy (iDWS), which combines a multimode interferometer with a CMOS camera to achieve multispeckle detection, for high-speed measurements of blood flow in the human brain.


13:30-15:30 Su3F • Silicon Photonics II Presider: Carlos Alonso- Ramos; C2N/Univ. Paris Sud/CNRS, France.

13:30-15:30 Su3G • Optical Sources and Applications Presider: Lin Yang; Chinese Academy of Sciences, China

13:30-15:30 Su3H • Ultrafast & Nonlinear Optics II Presider: Jianrong Qiu; Zhejiang Univ., China.

13:30-15:30 Su3I • Quantum Memory & Quantum Entanglement Presider: Xifeng Ren; USTC, China.

13:30-15:30 Su3J • Software Defined Networking II Presider: Jiajia Chen; School of ICT, KTH, Sweden.

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13:30-15:30 Su3K • Advanced Optical Diagnostic Technology II Presider: Nanguang Chen; National Univ. of Singapore.

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Sunday, 28 October

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Su3A.3 • 14:30 Transmission Modes of Metal-Clad Polarization Maintaining Fiber Polarizers, Xinyue Wang1, Wen Sun1, Zhongwei Tan2, Zhu Zhou2 and Ziyu Wang2; 1China Agricultural Univ., China; 2Peking Univ., China. We investigate the transmission modes of metal-clad polarization maintaining fiber polarizers theoretically and experimentally, and propose a new method to demonstrate the TE modes are preferentially transmitted by the metal- clad polarization maintaining fiber polarizers.

Su3A.4 • 14:45 Seeing the Modes in Few-Mode Fibers through Deep Learning, Yi An1, Liangjin Huang1, Jun Li1, Jinyong Leng1, Lijia Yang1 and Pu Zhou1; 1National Univ. of Defense Technology, China. We have first-ever utilized the deep learning (DL) in mode decomposition (MD) for few-mode fiber (FMF). Both of simulations and experiments have demonstrated that DL is highly effective for accurate and fast MD for FMF.


Su3B.3 • 14:15 Highly sensitive bend measurements using a miniature fiber collimator-based Fabry-Perot Interferometer, Xizhen Xu1, Jun He1, Changrui Liao1, Ying Wang1 and Yiping Wang1; 1Shenzhen Univ., China. A miniature fiber collimator based Fabry- Perot Interferometer (FPI) is demonstrated for bend measurements. The divergence angle of the included miniature fiber collimator is 0.058 rad, and the bend sensitivity is -3.353 dB/degree.

Su3B.4 • 14:30 Hydraulic Pressure Sensor based on an Asymmetric Double-core Fiber, Yan Zhou1, Lijuan She1, Yadong Deng1, Daru Chen1, Zhangwei Yu1 and Zexuan Qiang1; 1China Zhejiang Normal Univ., China. Based on an asymmetric double-core fiber (ADCF), a novel hydraulic pressure sensing system without optical spectrum measurement using an optical spectrum analyzer is proposed. Simulation shows a system with 0.3mm/MPa.

Su3B.5 • 14:45 Demonstration of Liquid Pressure Fiber Sensing Based on Distributed Pola- rization Crosstalk Analysis, Zeheng Zhang1, Ting Feng1, Xichen Wang1, Yanling Shang1, Mingming Wang1 and Steve Yao1,2; 1Hebei Univ., China; 2Hebei Univ.& General Photonics Corporation, United States. The feasibility of a liquid pressure fiber sensing system based on the polarization crosstalk analysis technique through the water depth measurement is experimentally demonstrated for the first time to the best of the authors’ knowledge.


Su3C.3 • 14:15 Distributed Sub-Tree based Optical Mu- lticasting Scheme with Failure Probab- ility Constraints, Pengfei Yu1, Xiaojian Zhang1 and Peng Wu1, 1GEIRI, China. This paper proposes a survivable distributed sub-tree with failure probability constraints (DST-FPC) scheme. A heuristic modulation-level–aware approach is developed to realize the DST-FPC scheme. Simulations show that the DST-FPC scheme can greatly enhance the survivability.

Su3C.4 • 14:30 Single carrier time domain FTN signaling enabled by cascaded BPSK iterative detection, Pengfei Wang1, Yixiao Zhu1 and Fan Zhang1, 1Peking Univ., China. We discuss the principle of Faster than Nyquist (FTN) signaling. The orthogonality and distinguishability nature relative to Nyquist and Mazo limits are clarified. Single carrier time domain FTN signals are demonstrated utilizing the CBID algorithm.

Su3C.5 • 14:45 30-Gb/s PAM-8 Transmission with Directly-Modulated Laser using Machine Learning Equalizer, Ahmed Galib Reza1 and June-Koo Kevin Rhee1, 1Korea Ad- vanced Inst. of Science and Technology, South Korea. We experimentally demonstrate a DML-based IM/DD modulated 30-Gb/s PAM-8 transmission over an 18- km SMF-28e for access networks. The nonlinear distortions due to DMLs are mitigated using an artificial neural network (ANN)-based nonlinear equalizer called ANN-NLE.


Su3D.3 • 14:30 A Frame Averaging based Signal Tracing (FAST) Algorithm for Optical Camera Communications, Liqiong Liu1, Yang Hong1 and Lian-Kuan Chen1, 1The Chinese Univ. of Hong Kong, Hong Kong. We propose a novel frame averaging based signal tracing (FAST) algorithm for OCC. It is experimentally demonstrated that signals with nearly uniform grayscale can be extracted, resulting in significantly reduced BER (from ~10-3 to ~10-6).

Su3D.4 • 14:45 Real-time implementation of parallel digital timing recovery algorithm with reduced complexity, Ruibin Hao1, Yan Li1, Xiaodong Wang1, Jian Wu1, Jifang Qiu1 and Xiaobin Hong1, 1Beijing Univ. of Posts and Telecommunications, China. A real- time parallel all digital timing-recovery algorithm is implemented and investigated in a FPGA based 2.5Gbaud/s QPSK/16QAM system. Based on sharing numerically controlled oscillator, the complexity is reduced by at least 16% without performance degradation


Su3E.2 • 14:15 Boosting Optical Network Operation with Machine Learning, Jelena Pesic1, Emmanuel Séve1 and Yvan Pointurier1; 1Nokia Bell Labs, France. We give an overview of the current mode of operation of optical networks and we present the potential improvement brought by implementation of Machine Learning algorithms in a future mode of network operation.

Su3E.3 • 14:45 Scheduling Traffic Switching in an All-Optical Intra-Datacenter Network with Sub-Waveband Switching, Zhaoxin Zhong1, Chao Guo1 and Gangxiang Shen1 ; 1Soochow Univ.,China.To schedule switching traffic demand for a waveband AWGR-based DCN that supports sub- waveband switching, we develop an ILP model and a simulated annealing (SA) based algorithm. Simulation studies show the effectiveness of the approaches.


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Su3F.3 • 14:30 Second order nonlinearity in strained silicon waveguides, Mathias Berciano1, Guillaume Marcaud1, Xavier Le Roux1, Carlos Alonso-Ramos1, Christian Lafforgue1, Pedro Damas1, Diego Peres-Galacho1, Daniel Benedikovic1, Vladyslav Vakarin1, Alicia Ruiz-Caridad1, Paul Crozat1, Delphine Marris-Morini1, Eric Cassan1 and Laurent Vivien1; 1Centre for Nanoscience and Nanotechnology, CNRS, Univ. Paris Sud, Univ. Paris Saclay, France. We report on unambiguous experimental characterization of Pockels effect in strained silicon photonics structures in the microwave domain recent results on high-speed measurements will be presented and discussed.


Su3G.3 • 14:30 Dual-frequency Laser Doppler Velocimeter based on Integrated Dual-mode Amplified Feedback Laser, Guangcan Chen1, Dan Lu1, Lu Guo1, Wu Zhao1, Huan Wang1 and Lingjuan Zhao1, 1Inst. of Semiconductors, CAS, China. A simple dual-frequency laser Dop- pler velocimeter using a monolithically integrated dual-mode amplified feedback laser as the dual-frequency light source is proposed and experimentally demonstrated. A preliminary result of a longitudinal velocity 327.9 μm/s was measured.

Su3G.4 • 14:45 Terahertz Photonic Signal Gene- ration Employing InAs/InP Qua- ntum Dash Laser, Emad Alkhazraji1 and Mohammed Zahed Mustafa Khan2, 1Jubail Industrial College, Saudi Arabia; 2King Fahd Univ. of Petroleum and Minerals, Saudi Arabia. Injection locking is employed to lock two independent longitudinal modes of an L-band quantum-dash laser, thus generating a Terahertz photonic signal with a beat frequency of 1.2 THz.


Su3H.3 • 14:30 Hamiltonian formulation of cross mode modulation, Haofan Yang1, Weijin Chen1, Hanwen Hu1, Yuntian Chen1, Jing Xu1 and Xinliang Zhang1; 1Huazhong Univ. of Science and Techn., China. We investigated the cross mode modulation effect of a strong pump light on a weak probe light. The eigenmodes and the corresponding eigenvalues of the nonlinear system can be obtained by using the Hamiltonian approach.

Su3H.4 • 14:45 Optical Auto-correlators Using Single GaSe Nanoribbons for Femto-Joule Ultrafast Pulses Characterization, Feng Liao1, Fuxing Gu1; 1Univ. of shanghai for science and technology, China. High quality single-crystal GaSe nanoribbons (NRs) are fabricated and demonstrated as waveguides with good performance. Based on transverse SH generation, a single GaSe NR-configured optical auto-correlator is constructed for ultrashort pulse characterization.


Su3I.3 • 14:30 One-Shot Detection Limits of Quantum Illumination with Dis- crete Signals, Man-Hong Yung1, Fei Meng1 and Ming-Jing Zhao2, 1Southern Univ. of Science and Technology, China; 2Beijing Infor- mation Science and Technology Univ., China. We derive a complete and general set of analytic solutions for the one-shot detection limits of quantum illumination with discrete signals.


Su3J.3 • 14:30 Implementation of Northbound Interface in Multi-domain Coordi- nate Control Framework, Wenqi Bai1, Yihong Hu1, Guochu Shou1 and Yaqiong Liu1; 1School of Information and Communication Engineering, BUPT, China. We implement IETF YANG models interface and test its interoper- ability through a multi-domain coordinate experiment according to ACTN (Abstraction and Control of Traffic Engineered Networks) framework. We validate YANG models are well-suited for multi- domain coordination.

Su3J.4 • 14:45 Designing Deep Learning Model for Accurate vNF Service Chain Pre-deployment in Inter-DC EONs, Baojia Li1, Wei Lu1, Siqi Liu1 and Zuqing Zhu1; 1Univ. of Science and Tech. of China, China. This work considers a provisioning framework for inter-datacenter elastic optical networks, which incurporates prediction and pre-deployment of virtual network function service chains (vNF-SCs), and designs a new deep learning (DL) model to realize accurate prediction.


Su3K.3 • 14:30 Experimental evaluation of spatially resolved-optical spectroscopy’s lateral sensitivity, Grégoire Khairallah1,2, Walter Blondel1, Alain Delconte1, Frédéric Marchal1,3 and Marine Amouroux1; 1Université de Lorraine, CNRS, CRAN F-54000 Nancy, France; 2Metz-Thionville Regional Hospital, France; 3CHRU- Nancy, Institut de Cancérologie de Lorraine, France. The current study aims at evaluating lateral sensitivity of spatially resolved-optical spectroscopy using a micrometric positioning bench and a phantom made of agarose enriched with a fluorophore for one half of it.

Su3K.4 • 14:45 Extra-mural absorption fiber bundles for improved endoscopic imaging, Shawn Casey1, Kaijie Wu1, Chaochen Gu1 and Xinping Guan1; 1SJTU, China. An extra-mural absorption fiber bundle for endoscopic applications is disclosed. SEM-EDS was used to analyze the structure and composition. Signal-to-noise ratio of fluorescent signals and resolution improvements, using a line scanning confocal microscope, were conducted.


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Sunday, 28 October



Su3A.5 • 15:00 Bend-insensitive Small Core Diameter Graded-index Fiber Compatible for Both Multimode Transmission and Single-mode Transmission, Wufeng Xiao1, Rong Huang1, Runhan Wang1, Lei Shen1, Tiejun Wang1 and Jie Luo1; 1Yangtze Optical Fiber and Cable Joint Stock Limited Company , China . In this paper, we present a novel bend-insensitive small core diameter graded-index fiber that is compatible for both multimode transmission between 850 nm to 950 nm and single-mode transmission between 1270 nm to 1330 nm.

Su3A.6 • 15:15 Design, Fabrication and measurement of a novel ultra low loss 4-LP-mode fiber, Lei Shen1, Jun Wu1, Hongyan Zhou1, Lei Xu1, Lei Zhang1 and Jie Luo1; 1Yangtze Optical Fiber and Cable Joint Stock Limited Company, China. We report the design, fabrication and measurement of a ultra low loss FMF. The attenuation of LP01 mode is 0.152dB/km. This FMF can be used in weakly-coupled mode-division- multiplexed systems that allows to multiply the capacity.


Su3B.6 • 15:00 Field trail of high resolution fiber optic strainmeter and temperature sensor, Wentao Zhang1, Wenzhu Huang 1and Yingbo Luo1; 1Inst. of Semiconductors, Chinese Academy of Sciences, China. High resolution strainmeter and temperature sensor based on FBG resonators are proposed for earthquake precursory observation. The field trail shows a strain resolution of 0.94 nε and a temperature resolution of 0.11 mK.

Su3B.7 • 15:15 Hybrid PMMA–Silica Microfiber Coupler Acetone Gas Sensor, Dan-Ran Li1 and Fei Xu1; 1Nanjing Univ., China. We developed a versatile and compact optical hybrid coupler gas sensor composed of a PMMA microwire and a silica microfiber. We demonstrate its sensing ability and measure the sensitivity for acetone vapor.


Su3C.6 • 15:00 Experimental Investigation of Under- water Weak Optical Communication Using Photomultiplier Tube Receiver, Chunhui Lu1, Chao Li1 and Zhengyuan Xu1, 1Univ. of Science and Technology of China, China. Using photon counting technology and OOK modulation with a duty ratio of 0.7, the receiver sensitivity of -70dBm is successfully achieved for a 5Mbps intensity modulation direct detection (IM/DD) underwater weak optical communication (UWOC) system.

Su3C.7 • 15:15 Predicting Optical Power Excursions in Erbium Doped Fiber Amplifiers using Neural Networks, Maria Freire1, Sébastien Mansfeld1, Djamel Amar2, Frank Gillet1, Antoine Lavignotte1 and Catherine Lepers1, 1Telecom SudParis, France; 2IMT Atlantique, France. We report on a Machine Learning approach based on artificial Neural Networks to predict optical power excursion in Erbium Doped Fiber Amplifiers. Its flexibility and adaptability could be valuable for future optical networks.


Su3D.5 • 15:00 Novel Phase Estimation Scheme Based On Support Vector Machine for Multiband-CAP Visible Light Communication System, Wenqing Niu1, Yinaer Ha and Nan Chi1, 1Fudan Univ., China. As for Multiband-CAP VLC system, employing CMA equalization to converge constellation is faced with the problem of phase offset. In this paper we demonstrate that SVM provides considerable results in phase estimation and BER reduction.

Su3D.6 • 15:15 Significant OSNR Improvement in Intensity Modulation and Coherent Detection Metro Links Enabled by Advanced Nonlinear DSP, Jinlong Wei1, Tianjian Zuo1, Fabio Pittala1, Gernot Goeger1 and Le Nguyen Binh1, 1Huawei Technologies Duesseldorf GmbH, China. Combined nonlinear equalizations, noise cancellations, and 2-state MLSE enabled a record 18-dB OSNR sensitivity and >8-dB OSNR improvement at BER=3.8E-3 compared to linear equalization case for a 56-Gb/s EML-modulation and coherent detection 320-km SMF link.


Su3E.4 • 15:00 Which Features Most Impact: Prediction of ANN-Based Lightpath Quality of Tran- smission, Longfei Li1, Gangxiang Shen1, Xiaodong Fu2, Shuiping Jie2 and Sanjay Kumar Bose3; 1Soochow Univ., China; 2Zhongtian Broadband Technology Rudo- ng, Jiangsu Province, China; 3IIT Guwahati Guwahati, India.This study aims to find the features that most impact the lightpath QoT by artificial neural networks. The evaluation shows that the total length of a lightpath most impacts the lightpath QoT.

Su3E.5 • 15:15 Edge-buffered Contention-resolution Hybrid Optical/Electrical Switch for Data Center Networks, Bao Huang1, Tong Ye1, Lingkang Wang1 and Weisheng Hu1 ; 1Shanghai Jiao Tong Univ., China. We propose an Edge-buffered Contention- resolution Hybrid Optical/Electrical Switch (ECHOES) for Data Center Networks. Simulations indicate our scheme can support a workload up to 0.93 while still maintain near 100% throughput and stable delay at microsecond-level.



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Su3F.4 • 15:00 Large 10-dB Bandwidth and Low Insertion Loss Silicon Dual-ring Modulator, Hongxia Zhang1, Xinhong Jiang1 and Ciyuan Qiu1; 1Shanghai Jiao Tong Univ., China. A silicon dual-ring modulator with 10-dB bandwidth of 0.08 nm and low insertion loss of 1.1 dB is experimentally demonstrated. The modulation speed of the dual-ring modulator can be as high as 20 Gb/s.

Su3F.5 • 15:15 Hybrid Silicon and Lithium Niobate Michelson Interfero- meter Modulator, Mengyue Xu1, Mingbo He1, Xueqin Wen2, Ziliang Ruan2, Liu Liu2 and Xinlun Cai1; 1Sun Yat-sen Univ., China; 2South China Normal Univ., China. We demonstrate the hybrid silicon and lithium niobate electro-optic Michelson interferometer modulator with a low voltage-length product of 1.2 V•cm. Operating speed up to 40 Gbit/s with 6.8dB extinction ratio is shown.


Su3G.5 • 15:00 All-optical inverter based on hybrid square-rectangular laser, Fu-Li Wang1, Yong-Zhen Huang1, Yue-De Yang1, Jin-Long Xiao1 and You-Zeng Hao1, 1Inst. of Semicon- ductors, Chinese Academy of Sci- ences, China. All optical inverter is realized based on a hybrid square- rectangular laser. Dynamic performance up to 5 Gb/s is reached with extinction ratio of 10 dB.

Su3G.6 • 15:15 Bias Modulation Characteristic Analysis Using a Uni-Traveling- Carrier Photodiode, Xiaohui Xu1, Yongqing Huang1, Tao Liu1, Xiaofeng Duan1, Kai Liu1 and Xiaomin Ren1, 1BUPT, China. We theoretically studied the photodiode bias modulation technology. Based on one uni-traveling-carrier photodiode structure, the modulation bandwidth can reach 25 GHz at a 150 GHz subcarrier signal when the incident optical power is 12.93 dBm.


Su3H.5 • 15:00 Enhanced Self-Phase Modulation in Graphene-integrated Silicon Waveguides, Qi Feng*, Ting Wang, Jianjun Zhang, Inst. of Physics, China. Silicon-on-insulator waveguides covered with graphene in different lengths have been fabricated. We demonstrated the enhanced self phase modulation and Kerr nonlinearity in graphene- integrated silicon waveguides.

Su3H.6 • 15:15 Mode-locked Erbium-doped Fiber Laser Based on Single-wall Carbon Nanotubes and Fiber Focusers, Xinxin Huang1, Xiaorong Gu1, Menglin Liu1, Yixuan Zhu1, Chenxi Jiang1, Hongqiao Zhang1, Chong- jun He1, Youwen Liu1; 1Nanjing Univ. of Aeronautics and Astronautics, China. We have demonstrated a mode-locked Er- doped fiber laser based on SWCNTs SA and fiber focusers. The nonlinearity of the absorber will change when moved away from the beam waist position of the fiber focuser.


Su3I.4 • 15:00 Generation of photonic entanglement based on nonlinear metamaterials, Yang Ming1, Jie Tang2, Wang Zhang2 and Yushen Liu1, 1Changshu Inst. of Technology, China; 2Nanjing Univ., China. We investigate the generation of photonic entanglement based on parametric down conversion in nonlinear metamaterials. Through flexible nanostructure design, the spatial properties of the generated photonic state can be tailored as desired.

Su3I.5 • 15:15 A phonon laser operating at an exceptional point, Jing Zhang1, Lan Yang2; 1Tsinghua Univ., China; 2Washington Univ. in Saint Louis, USA. Non-Hermitian physical systems have attracted considerable attention for their unconventional beha- viour around exceptional points (EPs). Given the progress in understanding the physics of EPs, one of the oldest theoretical predictions, i.e., a dramatic broadening of the laser linewidth at an EP, has been probed only indirectly. Here, we fill this gap by steering a phonon laser in a compound optomechanical system. We observe a pronounced linewidth broadening of the mechanical lasing mode when the system approaches the EP. This is the first time that the linewidth broadening of a phonon laser at an EP is explicitly demonstrated.


Su3J.5 • 15:00 Bandwidth Calendaring Schedul- ing Algorithm over Software De- fined Packet Transport Network, Wang Yafei1; 1BUPT, China. We propose an immediate solution to the Bandwidth Calendaring Service from the perspective of the network operator, including admission decisions, scheduling time and scheduled path planning, which motivates network operator to maximize the traffic acceptance rate.

Su3J.6 • 15:15 Dynamic Orchestration Mech- anism of Service Function Chain in Hybrid NFV Networks, Xiao Liang, Xiaohong Huang, Xiao Liang1, Xiaohong Huang1, Dandan Li1 and Tianle Yang2 ;1BUPT, China; 2Chinamobile Group, China. We propose a dynamic orchestration model SFC-D in hybrid networks. Then we propose an algorithm based on Markov renewal process. The experiments show that our algorithm performs well and time efficiency is improved.


Su3K.5 • 15:00 Heart rate estimation based on a new scheme during intensive exercise from Photoplethysmography, Xuhui Song1, Xueguang Yuan1, Yang'An Zhang1, Gong Chen1, Shengyao Xu1 and Yongqing Huang1; 1BUPT, China. Two channels Photoplethysmography are acquired by pulse oximeter. The scheme concludes multi-channel signals, the conditional sum of cascaded adaptive filters and singular spectrum analysis, and peak selection proposed for monitoring heart rate in extensive exercise.

Su3K.6 • 15:15 Investigation of human skin autofluorescence modifications due to optical clearing using spatially resolved spectroscopy and multiple excitations, Prisca Rakotomanga1, Grégoire Khairallah1, Marina Shvachkina2, Marine Amouroux1, Charles Soussen3, Alain Delconte, Frédéric Marchal1, Wei Feng4, Alexander Pravdin2, Dan Zhu4, Valery V. Tuchin2 and Walter Blondel1; 1Univ. de Lorraine, CNRS, CRAN UMR 7039, France; 2Saratov State Univ., Russia; 3Université Paris- Sud-Ecole CentraleSupélec L2S UMR 8506, France; 4Huazhong Univ. of Sci. & Tech., China. This work inves- tigates the modifications of spatially resolved multiply excited autofluorescence spectra and related estimated optical properties of tissue phantoms and ex vivo human skin tissue during topical application of optical clearing agents.



Sunday, 28 October



Su4A.1 • 16:00 Beyond 100G WDM technique and G.654.E fibre deployment in China Unicom, Shen Shikui; Network Technology Research Institute, China Unicom, China. G.654.E fibres with larger effective area and lower attenuation coefficient had been recognized as most promising solution for the forthcoming 400G/1T terrestrial transport. This talk introduces the deployment of beyond 100G WDM technique to upgrade the transmission network, and the roadmap of G.654.E fibres construction in China Unicom to pave the way for beyond 100G transmission.


Su4B.1 • 16:00 Artificial Intelligent Pattern Recognition for Optical Fiber Distributed Acoustic Sensing Systems Based on Phase-OTDR, Hongqiao Wen1, Zhaoqiang Peng2, Jianan Jian2, Mohan Wang2, Hu Liu3, Zhihong Mao4 and Kevin Chen4; 1Wuhan Univ. of technology, China; 2Univ. of Pittsburgh, 3United States; 3Beihang Univ., China; 4Univ. of Pittsburgh, United States. In this paper, we present an integrated approach to improve measurement efficacy of fiber optical distributed acoustic sensing (DAS) systems using a combined approach of ultrafast laser manufacturing and neural network pattern recognition.


Su4C.1 • 16:00 The Kramers-Kronig receiver: operation principle and implementations, Cristian Antonelli1, Antonio Mecozzi1 and Mark Shtaif2, 1Univ. of L'Aquila, Italy; 2Tel Aviv Univ., Israel. The Kramers-Kronig (KK) receiver accommodates I/Q signaling in spite of the fact that it relies on direct detection. In this talk we review the principle of operation of the KK receiver and its various implementations.


Su4D.1 • 16:00 Dimmable Indoor Visible Light Communication with Cooperative Downstream Infrared Enhancement, Jian Chen1, Xiaodi You1, Changyuan Yu2; 1School of Telecommunication and Infor- mation Engineering, Nanjing University of Posts and Telecommunications, Nanjing, China; 2Department of Electronic and Information Engineering, The Hong Kong Polytechnic University, Hong Kong, China. Periodical instantaneous shutoff of lighting LED is the fundamental way of dimming in indoor visible light communication systems. It is difficult to simply increase transmission rate to counteract the resul- tant transmitted signal capacity decrease proportionally as unrealistic receiver sensitivity problem will arise. Simultaneous downstream infrared transmission is proposed under the NOMA-like reception scheme with a sharing optical detector.


Su4E.1 • 16:00 The Tactile Internet: Where Do We Go From Here? Martin Maier1; 1INRS, Canada. After showing how URLLC requirements of immersive Tactile Internet applications, this paper outlines some research ideas that help tap into the full potential of the Tactile Internet unleashed from restrictions imposed by certain vested interests.


16:00-18:00 Su4A • Novel Fibers and Applications III Presider: Fei Xu; Nanjing Univ., China.

16:00-18:00 Su4B • Distributed Sensors II Presider: Zinan Wang; Univ. of Electronic Science and Tech. of China, China.

16:00-18:00 Su4C • Optical Transmission & Optical Interconnects Presider: National Inst. of Information and Communications Tech., Japan

16:00-18:00 Su4D • Visible Light Communication II Presider: Jing Xu, Zhejiang Univ. China.

16:00-18:00 Su4E • Access Network Design and Operation II Presider: Jie Zhang; BUPT, China.

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Su4F.1 • 16:00 Dual-wavelength functional meta- devices using indium-tin-oxide in modularization design, Jing Luan1, Wenbing Liu1, Jifei Ding1, Yong- hong Ling1 and Lirong Huang1; 1Huazhong Univ. of Science and Technology, China. We here propose two multifunctional metade- vices for reflective deflection (focusing) at 2365 nm and transmissive deflection (focusing) at 650 nm in modularization design by using indium-tin-oxide.

Su4F.2 • 16:15 Tunable Asymmetrical Spin Splitting of Black Phosphorus in Terahertz Region, Hai Lin1, Wenguo Zhu1, Jianhui Yu1, Heyuan Guan2, Huihui Lu2 and Zhe Chen2; 1Guangdong Provincial Key Labora- tory of Optical Fiber Sensing and Communications, Jinan Univ., China; 2 Jinan Univ., China. Photonic spin Hall effect in black phosphorus (BP) is investigated. The in-plane aniso- tropy of BP will induce asymmetric spin splitting. Considering the four displacements as independent channels for information processing, potential application in barcode- encryption is discussed.


Su4G.1 • 16:00 Microwave Photonic Phase Shifters using Silicon Micro- resonators, Yikai Su1, 1Shanghai Jiao Tong Univ., China. We report two 40-GHz silicon microwave photonic phase shifters. The first one is a microring resonator with low RF output power variation, and the second one uses an interleaver to achieve linear phase response.


Su4H.1 • 16:00 Chaos-assisted broadband coupling to a high-Q microresonator, Yunfeng Xiao1; 1Peking Univ., China. We introduce the concept of momentum transformation of light in ultrahigh-Q asymmetric microcavities. Assisted by chaotic mo- tions, efficient coupling from visible to near-infrared bands is demonstrated between a nanowaveguide and whispering gallery modes.


Su4I.1 • 16:00 Heralded Narrowband Single Photons for Differential-Phase Shift Quantum Key Distribution, Shengwang Du1, 1The Hong Kong Univ. of Science and Technology, Hong Kong. Frequency-antic- orrelated photon pairs can be used to produce heralded single photons with pure temporal wavefunctions. We demonstrate using these heralded narrowband single photons for differential- phase-shift quantum key distribution implementing phase- amplitude modulations.


Su4J.1 • 16:00 Photonic Coupling Structures for Transistor Laser based Computing Architectures, Aditi Udupa1, Shaneen Braswell1, Kaidong Peng1, Arunita Kar1, Jinlong Zhu1 and Lynford Goddard1; 1Univ. of Illinois at Urbana-Champaign, United States. We report several approaches to couple light between CMOS compatible 980-nm transistor lasers and photodetectors via passive silicon nitride waveguides. We will discuss in-plane and out-of-plane couplers, low-loss waveguides, and reconfigurable optical interposers.


Su4K.1 • 16:00 Super-resolution Dipole Orienta- tion Microscopy, Peng Xi1; 1Peking Univ., China. With the modulation of fluorescent excitation polarization, here we report a novel super- resolution microscopy technique in which the orientation of the fluoro- phores can be mapped in addition to super-resolution imaging.


16:00-18:15 Su4F • Optoelectronics Devices Presider: Ming Wu; Univ. of California, Berkeley, USA.

16:00-18:00 Su4G • Microwave Photonic Devices Presider: Chester Shu; Chinese Univ. of Hong Kong, China.

16:00-18:00 Su4H • Ultrafast & Nonlinear Optics III Presider: David Hagan; CREOL, USA.

16:00-18:00 Su4I • Quantum Key Distribution Presider: Eilon Poem; Weiz- mann Inst. of Science, Israel.

16:00-18:15 Su4J • Silicon Nitride Integration Presider: Yong-Zhen Huang; Inst. of Semiconductors, CAS.

16:00-18:00 Su4K • Super-resolution Optical Imaging Presider: Zhen Yuan; Univ. of Macau, China


Sunday, 28 October

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Su4A.2 • 16:30 Advanced Optical Fibers for Communication Applications, Ansion LM Xiong1, R. Matai1, Jie Luo1; 1State Key Laboratory of Optical Fiber and Cable Manufacture Technology, YOFC, China. Examples of advanced optical fibers used for communication will be illustrated and special features of the fiber designs will be discussed along with the technical challenges unique to communication applications.

Su4A.3 • 17:00 Fabrication and characterization of a hollow-core fiber based high finesse Fabry-Perot etalon, Meng Ding1, Eric Numkam Fokoua1, Yong Chen1, Thomas Bradley1, Seyed Reza Sandoghchi1, Gregory Jasion1, Marco Petrovich1, Francesco Poletti1, David Richardson1 and Radan Slavík1; 1Univ. of Southampton, United Kingdom. A 2-m long Fabry-Perot etalon made of a 19-cell hollow-core fiber was built and characterized by its radio-frequency (RF) transmission spectra. A finesse of up to 13 was achieved using 82% reflectivity mirrors.


Su4B.2 • 16:30 External Modulation Scheme for Fiber-Optic Correlation-Domain Distributed Sensing, Kohei Noda1, Giwoon Han1, Heeyong Lee1, Yosuke Mizuno1 and Kentaro Nakamura1; 1Tokyo Inst. of Technology, Japan. The configurations of optical correlation-domain reflectometry (OCDR) have been based on direct modulation of the laser driving current. However, it poses three disadvantages. To mitigate the drawbacks, we propose an external modulation scheme for OCDR.

Su4B.3 • 16:45 Optical Fiber Sensing System for Online Monitoring Wind-induced Vibration on Power Transmission Tower Survey, Yinggang Nan1, Wenping Xie2, Li Min3, Shunshuo Cai1, Xiaoyong Chen4 and Tuan Guo1; 1Jinan Univ., China; 2Guangdong Power Grid Company Limited, China; 3Qilu Univ. of Technology (Shandong Academy of Sciences), China; 4Shantou Univ., China. High-voltage transmission towers in coastal areas can be damaged by destructive hurricanes and strong seasonal winds. With real-time condition monitoring systems, severe and critical damage can be detected early, and appropriate countermeasures taken.

Su4B.4 • 17:00 Enhancing Laser Phase-noise Immunity of Distributed Vibration Sensor by Phase-extraction φ-OTDR, Yuying Shao1, Huanhuan Liu2, Peng Peng1, Fufei Pang2, Guoqin Yu1, Zhen Chen2, Na Chen2 and Tingyun Wang2; 1State Grid Shanghai Municipal Electric Power Company, China; 2Shanghai Univ., China. We have demonstrated distributed vibration sensors based on phase-sensitive optical time-domain reflectometer (φ-OTDR) system exhibiting immunity to laser phase noise. By using phase difference method, two φ-OTDR systems with distinct linewidth shows comparable SNR.


Su4C.2 • 16:30 Enabling Technologies in Packet Optics, Yang Yue1, 1Juniper Networks, USA. Packet optics is revolutionizing the optical transport network in a more manageable and efficient way. We will review the enabling technologies in client and line side pluggable optics and some of our recently developed solutions.

Su4C.3 • 17:00 Threshold based Pruned Retraining Volterra Equalization for PAM-4 100 Gbps VCSEL and MMF Based Optical Interconnects, Ling Ge1, Wenjia Zhang1, Chenyu Liang1 and Zuyuan He1, 1Shanghai Jiao Tong Univ., CHina. Threshold based pruned retraining Volterra Equalization (TRVE) is experimentally demonstrated for VCSEL enabled 100 Gbps PAM-4 over 100 m MMF. Up to 94.2% and88.0% complexity reduction has been achieved for B2B and 100 m.


Su4D.2 • 16:30 Real-valued Optical I-SCFDM with Joint Post-equalization for Visible Light Communications, Tiantian Zhang1, Zhenshan Zhang1, Ji Zhou2, Yueming Lu1, Fei Su1 and Yaojun Qiao1, 1BUPT, China; 2Jinan Univ., China. We experimentally demonstrate a low-complexity I-SCFDM scheme for bandwidth-limited VLC systems. With joint post-equalization, a data rate of 100Mb/s over 2.1-m transmission is achieved without any pre-compensation of transmitter.

Su4D.3 • 16:45 Mitigating Nonlinearity Characteristics of Gray-Coding Square 8QAM in Underwater VLC system, Peng Zou1, Yuanfan Liu1, Fumin Wang1 and Nan Chi1, 1Fudan Univ., China. We proposed a GCS-8QAM based underwater VLC system which performs better than rectangular 8QAM and circular(7,1) 8QAM. It can achieve a higher data rate of 1.62Gb/s and bigger operation range.

Su4D.4 • 17:00 A visible light single-carrier frequency domain MMSE based on mobile localization, Jiayuan Wang1 and Jian Chen1, 1Nanjing Univ. of Posts & Telecommunications, China. This paper proposes a new method to simply equalize of indoor visible light communication by combining the mobile positioning technology and the single-carrier frequency domain minimum mean squared error equalization together.


Su4E.2 • 16:30 The future of higher speed PONs, Frank Effenberger1; 1Futurewei Technologies, United States. This paper considers the future evolution of PON technology through 2025, based upon the requirements for such systems as well as the available technology to implement them. Three major system subtypes are envisioned.

Su4E.3 • 17:00 Dynamic Polling Sequence Arrangement for Low-Latency Wireless LAN, Yunxin Lv1, Lihua Ruan2, Maluge Pubudini Imali Dias2, Elaine Wong2, Ye Feng2, Ning Jiang1 and Kun Qiu1 ; 1Univ. of Science and Technology of China,China; 2The Univ. of Melbourne,Australia.To benefit Tactile Internet (TI) grade uplink healthcare data transmission in hospital wireless local area networks (WLANs), the effect of polling sequence is investigated and two polling sequence arrangement schemes are proposed and evaluated.



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Su4F.3 • 16:30 First Demonstration of C-band Wavelength Demultiplexer Based on a Bragg Reflector Waveguide Amplifier Using InP Material, Xiaodong Gu1, Ryosuke Togashi1, Takahiro Sakaguchi1, Akihiro Matsutani1 and Fumio Koyama1; 1Tokyo Inst. of Technology, Japan. We demonstrated, for the first time, a C-band wavelength demultiplexer based on a Bragg reflector waveguide using InP material. The device shows a large angular dispersion of ~0.75°/nm. Channel resolution is as small as 64GHz.

Su4F.4 • 16:45 On-chip forward bandpass mode conversion based on two cascaded Bragg gratings, Rulei Xiao1, Yuechun Shi1, Yong Zhao1 and Xiangfei Chen1; 1Nanjing Univ., China. Forward conversion between two guided modes can be achieved with the aid of an additional mode based on two cascaded Bragg reflection processes. We have investigated and verified the mode conversion by simulation and experiment.

Su4F.5 • 17:00 Octave-spanning Flattened Dis- persive Slot Waveguide for On- chip Chirped Pulse Amplification, Yuxi Fang1, Changjing Bao2, Zhi Wang1, Yange Liu1, Lin Zhang1, Si-Ao Li1, Yiwen Zhang1, Hao Huang2, Yongxiong Ren2, Zhongqi Pan2 and Yang Yue1; 1Nankai Univ., China; 2Univ. of Southern California, United States. Si3N4 slot waveguide is designed with flat negative dispersion over octave-spanning bandwidth. A 448× temporal broadening is achieved for 10-fs pulse after 5-cm propagation. It could be a key building block in on-chip CPA.


Su4G.2 • 16:30 Photonic integrated circuits for microwave photonics, Jianji Dong1, Xu Wang1, Yuhe Zhao1 and Xinliang Zhang1, 1Huazhong Univ. of Science and Technology, China. We will introduce recent progresses on photonic integrated circuit for microwave photonics, including true time delay chip, microwave measurement system, microwave processor.

Su4G.3 • 17:00 Opportunities for Hollow Core Optical Fibres in Microwave Photonics, Radan Slavik1, Eric Numkam-Fokoua1, Wenwu Zhu1, Tom Bradley1, Yong Chen, Marco N. Petrovich1, Francesco Poletti1 and David J. Richardson1, 1Univ. of Southampton, United Kingdom. Hollow core optical fibres guide light through a hole rather than the solid silica glass, strongly reducing the glass-light interaction. This gives them many unique properties like low sensitivity to temperature and low non-linearity.


Su4H.2 • 16:30 Advance in mid-infrared pulsed fiber lasers, Jianfeng Li1; 1Univ. of Science and Technology of China, China. We present our recent progress on mid-infrared pulsed fiber lasers at 2.8 μm, 3.2 μm and 3.5 μm regions. A series of new ways for improving pulse performance are presented. Some pros- pective predictions are proposed.

Su4H.3 • 17:00 Colloidal plasmonic metal oxide nanoparticles for nonlinear optics and ultrafast pulse lasers, Xiaofeng Liu1; 1Zhejiang Univ., China. We discuss the recent advances in the use of colloidal processed metal oxide plasmonic NPs for ultrafast optical switches to drive pulse laser generation in both solid state and fiber lasers.


Su4I.2 • 16:30 Bell Test and Device Independent Quantum Information Processing, Qiang Zhang1, 1Univ. of Science and Technology of China, China. Bell inequality was invented to test quantum foundation. Interestingly, it will find immediate applications in quantum information. This talk will review the experimental efforts in loophole-free Bell test and device independent quantum random number generation.

Su4I.3 • 17:00 Applications of Spontaneous Four Wave Mixing on Quantum Communications, Wei Zhang1, 1Tsinghua Univ., China. This talk introduces recent works about applications of SFWM on different quantum communication schemes, including quantum secure direct communication, temporal ghost imaging over fibers and field experiments of quantum teleport- ation and entanglement swapping.


Su4J.2 • 16:30 Going further with CMOS photonics using silicon nitride and SiGe, Frederic Gardes1, Thalia Bucio1, Lorenzo Mastronardi1, Mehdi Banakar1, Alexandre Bazin1, Ali Khokhar1, Cosimo Lacava1, Periklis Petropoulos1, Moïse Sotto1, Shin Saito1, I Molina- Fernández2, Robert Halir2, A Ortega-Moñux2, J.G. Wangüemert- Pérez2, Chen Yang3, Jian-Jun He3, Pavel Cheben4, Jens Schmid4, Callum Littlejohns5, Kapil Debnath6, Marco Clementi7, Marco Liscidini7, Daniele Bajoni7 and Matteo Galli7; 1Univ. of Southampton, UK; 2Universidad de Málaga, Spain; 3Zhejiang Univ., China; 4National Research Council Canada, Canada; 5NTU, Singapore; 6Indian Inst. of Technol. Kharagpur, India; 7Univ. di Pavia, Italy. We demonstrate high efficiency couplers, MUX and non-linear characteristics based on a BEOL-SiN platform. We also demonstrate a CMOS-compatible SiGe high-speed EAM and a complementary epitaxy method enableing the Si content tunability of SiGe.

Su4J.3 • 17:00 Space-Division Multiplexing Devi- ces based on Multi-Plane Light Conversion, Nicolas K. Fontaine1, 1Nokia Bell Labs, USA. Multi-plane light conversion can emulate arbitrary three dimensional optical devices with multiple-inputs and multiple-outputs from a series of phase masks separated by free space propagation. We will show how to design several devices including mode multiplexers for Hermite-Gaussian modes to excite over 45 spatial modes.


Su4K.2 • 16:30 Monitoring of tumor microenvironment based on fluorescence lifetime microscopy, Liwei Liu1; 1Key Laboratory of Opto- electronic Devices and Systems of Guangdong Province, Shenzhen Univ., China. In this work, we propose for the first time the utilization of the aggregation- caused quenching (ACQ) effect of establishing a simple multicolor imaging method. Due to different tissues with different affinities for single non-specific dye, the concentration-dependent selfquenching would exhibit differentiated fluorescence lifetimes in different tissues. Thus, simultaneous multicolor imaging of different biological tissues can be successfully imple- mentted by using only one nonspecific labeling dye, a laser excitation wavelength and an output single channel detection device.

Su4K.3 • 17:00 Direct super-resolution image reconstruction for structured illumination microscopy, Baoli Yao, Dan Dan, Xing Zhou, Ming Lei, Zhaojun Wang, Tianyu Zhao, Jia Qian, Shipei Dang, State Key Laboratory of Transient Optics and Photonics, Xi’an Inst. Of Optics and Precision Mechanics, Chinese Academy of Sciences, China. A new approach to directly obtaining super-resolution images for structured illumination microscopy is introduced, termed spatial domain reconstruction (SDR), which is 50-fold faster than the conventional frequency domain reconstruction (FDR) method.




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Su4A.4 • 17:15 Higher-order Micro-fiber Modes for Escherichia coli Manipulation Using Tapered Four-mode Fiber, Yajie Wang1 and Qiangzhou Rong1; 1Northwest Univ., China . An optical tweezer with a diameter of 8 μm was proposed and demonstrated for trapping and delivering E. coli, causing the resonance field of the high-order mode extension to the ambient for manipulating the micro-objects.

Su4A.5 • 17:30 Double Cladding Fiber for Acoustic Vibration Sensing, Guanghui Sui1, Huanhuan Liu2, Fufei Pang2, Jiajing Cheng2 and Tingyun Wang2; 1Changcheng Inst. of Metrology & Measuremen, China; 2Shang- hai Univ., China. We have demonstrated an acoustic vibration sensor based on double cladding fiber that exhibits band-reject filter spectrum. Such sensor can achieve maximum signal-to-noise ratio of ~80.79 dB subjected to vibration with frequency of 20 kHz.


Su4B.5 • 17:15 Validity of Kramers-Kronig Relation in Signal Retrieval of Φ-OTDR, Jialin Jiang1, Zinan Wang1, Yue Wu1 and Yunjiang Rao1; 1Key Lab of Optical Fiber Sensing & Communications, Univ. of Electronic Science & Technology of China, China. Kramers-Kronig (K-K) relation is a universal mathematical relation in causal signal and has been used in many fields. The principle and application conditions of K-K relation in Φ-OTDR are studied numerically and experimentally.

Su4B.6 • 17:30 Investigation of radiation effect on single-mode fiber for distributed Gamma radiation sensing application, Jiangchuan Wu1, Lin Ma1, Feng Tu1 and Zuyuan He1; 1State Key Laboratory of Advanced Optical Communication Systems and Networks, China. We investigated radiation effect on single-mode fiber using OTDR technique. The experiment results show that real-time radiation dose distribution can be estimated with high spatial resolution by using a fiber with optimized radiation induced attenuation.


Su4C.4 • 17:15 Experimental Characterization of an SOA-Based Photonic Integrated Switch, Maria Freire1, Eloise De Carvalho Rodrigues1,2, Atchutananda Surampudi2,3, Franck Gillet1, Cédric Ware1,4, Antoine Lavignotte1 & Catherine Lepers1, 1SAM- OVAR, Télécom SudParis, CNRS, Univ. Paris-Saclay, 2Télécom SudParis, Depart- ment of Electrical Engineering, 3Indian Inst. of Technology Madras, 4LTCI, Télécom ParisTech, A Semiconductor Optical Amplifier (SOA)-based 2x2 photonic integrated switch has been designed and fabricated in the framework of the ANR N-GREEN project. We report on the experimental setup and the results obtained in its characterization.

Su4C.5 • 17:30 SVM Classification Comparison for QAM Modulated Optical Interconnection, Chang Wang1, Guoyao Chen1, Haoyang Wang1, Lin Sun1, Jiangbing Du1, Ke Xu2, Bo Liu3 and Zuyuan He1, 1Shanghai Jiao Tong Univ., China; 2Harbin Inst. of Technology (Shenzhen), China; 3Nanjing Univ. of Information Science & Technology, China. We experimentally investigated four SVM multi-classification methods for machine learning nonlinearity mitigation. The comparison results indicate close BER performance with significant improvement. The multi-classifier based on the in-phase and quadrature component has the lowest complexity.


Su4D.5 • 17:15 Experimental Demonstration of PAM-DWMT for Visible Light Communications, Zhenlei Zhou1,2, Bang- jiang Lin1,2, Xuan Tang1,2, Sushank Chaudhary1,2, Chun Lin1,2, Haiguang Zhang1,2 and Weiguo Li3, 1Quanzhou Inst. of Equipment Manufacturing 2Haixi Inst.s, Chinese Academy of Sciences, China; 3 North Univ. of China, China. We experimentally demonstrate a discrete wavelet multitone modulation scheme based on pulse amplitude modulation for visible light communications which offers high spectral efficiency, low peak to average power ratio and low side lobes.

Su4D.6 • 17:30 A discrete Fourier transform-based method for Nyquist signal shaping in VLC-SCFDE system, Zhihua Zhou1, Jing He1, Chen Qinghui1, Jie Ma1 and Yaoqiang Xiao1, 1Hunan Univ., China. A simple and efficient method based on discrete Fourier transform to generate Nyquist signal is proposed and experimentally demonstrated in a bandwidth-limited VLC-SCFDE system.


Su4E.4 • 17:15 A Huffman Coding Compression Algorithm for Reducing Optical Trans- mission Bandwidth of MFH, Xiaoxue Nan1, Jianfei Liu1, Xiangye Zeng1 and Jia Lu1; 1Hebei Univ. of Technology, China. To reduce the optical transmission bandwidth of MFH in 5G network, an improved Huffman coding compression algorithm is proposed by realigning and secondary coding in Huffman coding. Simulation results proved its validity.

Su4E.5 • 17:30 Energy Optimization with Passive WDM Based Fronthaul in Heterogeneous Cellular Networking, Dexue Song1, Jiawei Zhang1, Yuming Xiao1, Xin Wang1 and Yuefeng Ji1; 1BUPT, China. We propose a passive wavelength division multiplexing based fronthaul architecture for heterogeneous cellular networking, and a threshold based on/off algorithm for micro cells. Simulation results show that our algorithm significantly saves energy than traditional solutions.


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Su4F.6 • 17:15 On-chip Optical Attenuators Desi- gned by Artifical Neural Networks, Zhipeng Chu1, Yingjie Liu1, Jian- cheng Sheng1, Liang Wang2, Jiang- bing Du3 and Ke Xu1; 1Harbin Inst. of Technology (Shenzhen), China; 2The Chinese Univ. of Hong Kong, Hong Kong; 3Shanghai Jiao Tong Univ., China. We propose using neural networks for accelerating the direct binary search process. Based on 700 training samples obtained via device simulations, we are able to accelerate the optimization procedure of integrated optical attenuators with arbitrary atenua- tions.

Su4F.7 • 17:30 An InGaN micro-LED based photodetector array for high-speed parallel visible light communication, Xiaoyan Liu1, Runze Lin1, Zeyuan Qian1, Honglan Chen1, Xiaojie Zhou1, Gufan Zhou1, Xugao Cui1, Xiaolin Zhou1, Lirong Zheng1, Ran Liu1 and Pengfei Tian1; 1Fudan Univ., China. An InGaN micro-LED (μLED) array acting as photodetector receivers (referred as μLED- based PDs) was first proposed and experimentally demonstrated for high-speed parallel VLC using 405 nm violet LDs as transmitters.


Su4G.4 • 17:30 Generation of Phase-Coded Microwave Signals with a Tunable Frequency Multiplication Factor, Mengxu Chang1 and Yang Chen1; 1East China Normal Univ., China. A phase-coded microwave signal generator with a frequency multiplication factor of two or four is proposed using two cascaded optical modulators. Phase-coded microwave signals from 10 to 40 GHz are generated using low frequency oscillators.


Su4H.4 • 17:30 A Novel Scheme for Fre- quency-Space Switchable Optical Frequency Comb Generation, Lun Shi1, Fei Wang1, Mengmeng Peng1, Wen Kang1, Jingxin Huang1; 1Chongqing Univ. of Technology, China. We propose an optical frequency comb generation scheme mainly based on stimulated Brillouin scattering that frequency space can be switched between 0.08 nm and 0.16 nm in the same framework by tuning polarization controllers.


Su4I.4 • 17:30 Machine learning for the characterrisation and optimisation of photonic quantum technologies, Raffaele Santagati1, 1Univ. of Bristol, UK. In this talk, we will review recent advances in the application of Bayesian methods to the optimization and characterization of photonic quantum technologies.


Su4J.4 • 17:30 Hybrid polymer/SiNx enhanced gain light-emitter, Andi Zhang1, Yujie Chen1, Lin Liu1, Yanfeng Zhang1, Zhiren Qiu1 and Siyuan Yu1; 1Sun Yat-sen Univ., China. We demonstrate a hybrid structure fabricated by depositing SiNx cylinders arrays in organic polymer film BEHP-PPV. The gain emission peak is at about 518 nm, and threshold is around 3.3 mJ/cm2.


Su4K.4 • 17:30 Automatic recognition of live cells used hyperspectral imaging, Lian Lijin1, Peng Han1 and Hu Xuejuan1; 1Shenzhen Univ., China. This study explored the use of hyperspectral imaging in cell recognition. For analyzing of hyperspectral cube using support vector machine and artificial neural net to successfully classify alga. Its accurancy can achieve 95%.


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Su4A.6 • 17:45 Ultra-sensitive in-line optofluidic sensing via specialty fibers with built-in microstructured channels, Jiao Yang1, Nan Zhnag1 and Ping Shum1; 1Nanyang Technological Univ., Singapore. A side-channel photonic crystal fiber (SC-PCF) uses its universal sensing capability for in-line optical flow configuration which enables the strong interaction of optical materials and easy lateral access in the analytical systems.



Su4C.6 • 17:45 Joint Communication and Ranging System Based on Chaotic Light, Xinyu Dou1; 1Dalian Maritime Univ., China. In this paper, a joint communication and ranging system based on chaotic light is proposed, the architecture of the proposed system is designed, and the performance of communication and ranging is numerically investigated.


Su4D.7 • 17:45 An Indoor Visible Light Positioning System Using Artificial Neural Network, Chun Lin1,2, Bangjiang Lin1,2, Xuan Tang1,2, Zhenlei Zhou1,2, Haiguang Zhang1,2, Sushank Chaudhary1,2 and Zabih Ghassemlooy3, 1Quanzhou Inst. of Equipment Manufacturing, 2Haixi Inst.s, Chinese Academy of Sciences, China; 3Northumbria Univ., United Kingdom. We propose a visible light positioning system based on an artificial neural network and optical camera communications. The experimental results show that the proposed scheme offers a mean positioning error of 1.49 cm.


Su4E.6 • 17:45 Wavelength and Subcarrier joint Allocation Scheme for OFDM -PON, Xueyuan Sun1, Lei Wang1, Liqian Wang1, Bingchang Hua1, Zhiguo Zhang1 and Xue Chen1; 1Beijing Univ. of Post and Telecommunications, China. We proposed a wavelength and subcarriers joint allocation algorithm based on modulation level and traffic conditions through controller. Simulation results confirm that our algorithm can improve network throughput and bandwidth satisfaction rate among ONUs.



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Su4F.8 • 17:45 Avalanche Multiplication in AlAs0.56Sb0.44, Xin Yi1, Shiyu Xie2, Baolai Liang3, Leh Woon Lim1, Xinxin Zhou1, Mukul C. Debnath3, Diana L. Huffaker2, Chee Hing Tan1 and John. P. R. David1; 1The Univ. of Sheffield, UK; 2Cardiff Univ., UK; 3Unive. of California-Los Angeles, USA. The avalanche multiplication in bulk AlAs0.56Sb0.44 homojun- ction diodes has been used to extract the impact ionization coefficients. The results suggest that this material possess a larger ionization coefficient ratio than that seen in silicon

Su4F.9 • 18:00 Thermally-induced long-period grating mode converter on tapered polymer waveguide, Bo Wu1, Wei Ke Zhao1 and Kai Xin Chen1; 1Univ. of Science and Technology of China, China. A thermally-induced long-period grating on tapered polymer waveguide for the LP01-LP11a modes conversion is proposed. The fabricated device shows 10-dB bandwidth over the entire C+L band with a maximum of 40 dB at 1529.55 nm.


Su4G.5 • 17:45 High Frequency Resolution X-Band Frequency Synthesizer based on a Phase-Locked Optoelectronic Oscillator, Huanfa Peng1, Yongchi Xu1, Rui Guo1, Huayang Du1, Jingbiao Chen1 and Zhangyuan Chen1; 1Peking Univ., China. A phase-locked optoelectronic oscillator is proposed to realize low phase noise and high frequency resolution X-band frequency synthesizer. Phase noise of -100 dBc/Hz at 10 kHz offset and frequency resolution of 10 Hz-level are achieved.


Su4H.5 • 17:45 Stimulated Brillouin scattering in suspensions of absorbing and nonabsorbing 2D nanostructures, Ivan Kislyakov1, Jean-Michel Nunzi2, Xiaoyan Zhang1, Yafeng Xie1, Jun Wang1; 1Shanghai Inst. of Optics and Fine Mechanics, Chinese Academy of Sciences, China; 2Queen’s Univ., Canada. Graphene nanoflakes strongly quench stimulated Brillouin scattering (SBS) in liquids due to bubbling, while hBN exhibits a weaker quenching due to two-photon absorption. The effects are applicable in SBS-free materials design and for nano-impurities detection.



Su4J.5 • 17:45 Combining Er-doped Al2O3 ALD growth and silicon nitride slot waveguides for on-chip amplify- cation, John Rönn1, Weiwei Zhang2, Anton Autere1, Xavier Leroux3, Lasse Pakarinen1, Antti Säynätjoki1, Carlos Ramos3, Laurent Vivien3, Zhipei Sun1 and Eric Cassan1; 1Department of Electronics and Nanoengineering, Aalto Univ., Espoo, Finland, Finland; 2Optoele- ctronics Research Centre, Building 46, Univ. of Southampton, United Kingdom; 3C2N, CNRS, Univ. Paris-Sud, Université Paris-Saclay, France. We report efforts of providing on-chip optical gain by integrating developed active materials directly on silicon nitride slot waveguides. While pumping at 1.48µm, we measured approxi- mately an internal net gain in the 20-40 dB/cm range.

Su4J.6 • 18:00 Ultracompact polarization beam splitter based on a silicon-nitride- assisted three-waveguide coupler, Zhuo Cheng1, Jun Wang1, Zeyuan Yang1, Haiying Yin1, Wei Wang1, Yongqing Huang1 and Xiaomin Ren1; 1Beijing Univ. of Posts and Telecommunications, China. A polarization beam splitter is proposed using silicon-nitride- assisted three-waveguide couplers. With 7 μm coupling length, the extinction ratios are more than 30 dB and insertion losses are less than 0.15 dB at 1.55 μm wavelength.


Su4K.5 • 17:45 Demodulation and image reconstruction methods in linescan focal modulation microscopy, Shuhao Shen1 and Nanguang Chen1; 1National Univ. of Singapore, Singapore. Line-scan focal modulation microscopy enables high temporal resolution and good optical sectioning ability at the same time. This paper demonstrates its image reconstruction methods and demodulation approach in zebrafish imaging.



Sunday, 28 October



M1A.1 • 08:30 Cylindrical vector beam Ytterbium- doped fiber laser, Zuxing Zhang1, Hongdan Wan1, Jie Wang1, Jiaojiao Zhang1, Yang Xu1 and Lin Zhang2; 1Nanjing Univ. of Posts and Telecommunications, China; 2Aston Univ.,China. We demonstrate cylindrical vector beam (CVB) generation using mode selective coupler (MSC) as transverse mode converter. Based on two different methods: without/with pretapering, CVB from CW, Q-switched and mode-locked Ytterbium- doped fiber lasers have been achieved.

M1A.2 • 09:00 Efficient generation of high-order modes from all few-mode fiber lasers, Teng Wang1, Ao Yang1, Fan Shi1, Yiping Huang1, Jianxiang Wen1 and Xianglong Zeng1; 1Shanghai Univ., China. We experimentally demonstrated a switchable multiwavelength few-mode fiber (FMF) high-order mode (HOM) laser using Sagnac interferometer, and a Q-switched all-FMF HOM laser based on saturable absorber and nonlinear polarization rotation technique.


M1B.1 • 08:30 Femtosecond-Laser-Inscribed Fiber Bra- gg Gratings for High-Tempertature Sensing, Jun He1, Xizhen Xu1, Changrui Liao1, Chao Wang1 and Yiping Wang1; 1Shenzhen Univ., China. We demonstrated the inscription of various fiber Bragg gratings (FBGs) for high-temperature sensing applications. Three different femtosecond laser inscription methods, including phase-mask method, point-by-point inscription method, and line-by-line scanning method, were discussed.

M1B.2 • 09:00 A High Sensitive Borehole Strainmeter based on Fiber Bragg Grating, Liu Aichun1, Fan Wenjuan2 and Fan Lianglong1;

1The Inst. of Crustal Dynamics, China Earthquake Administration, China; 2China New United Imp &Exp Co.,Ltd of Xinxing Cathay International Group, China. Based on Fiber Bragg grating sensing technology, a borehole strain sensor with a curved triangular structure is designed, and the strain sensitivity is greatly improved by the temperature compensation method.


M1C.1 • 08:30 Probabilistically Shaped Signaling and Machine Learning Detection for Optical Interconnection, Jiangbing Du1, Lin Sun1, Guoyao Chen1, Chang Wang1 and Zuyuan He1, 1Shanghai Jiao Tong Univ., China. We reviewed our recent progresses regarding probabilistic shaping for signaling and machine-learning for detection in short reach optical interconnection systems, regarding VCSEL based MMF link and silicon MRM based SMF link.

M1C.2 • 09:00 Broadband frequency comb in a non-resonant AlGaAs-OI waveguide, Hao Hu1, Francesco Da Ros1, Minhao Pu1, Kresten Yvind1, Toshio Morioka1 and Leif Oxenløwe1, 1Technical Univ. of Denmark, Denmark. We present a frequency comb realised by a non-resonant aluminum- gallium-arsenide-on-insulator (AlGaAsOI) nano-waveguide with 66% pump-to-comb conversion efficiency, which can carry 661 Tbit/s of data, equivalent to more than the total internet traffic today.


M1D.1 • 08:30 High-Performance Coherent WDM PON Using Low-Cost Devices, Daeho Kim1 and Hoon Kim1, 1Korea Advanced Inst. of Science and Technology, South Korea. We present an upstream coherent WDM-PON system implemented by using DFB lasers and RSOAs. We report on a couple of techniques to extend the transmission distance by suppressing the adverse effects of SBS.

M1D.2 • 09:00 An Interleave Division Multiple Access Based Scheme for Passive Optical Network, Bangjiang Lin1,2, Xuan Tang1,2, Zabih Ghassemlooy3, Chun Lin1,2, Zhenlei Zhou1,2 and Hiaguang Zhang1,2, 1Quanzhou Inst. of Equipment Manufacturing, 2Haixi Inst.s, Chinese Academy of Sciences, China; 3Northumbria Univ., United Kingdom. We present an IDMA scheme combined with OFDM for PON, which offers improved transmission performance and good chromatic dispersion tolerance. Compared with OFDMA, IDMA-OFDM offers 8 dB gains in term of receiver sensitivity.


M1E.1 • 08:30 Emerging Trends in Optical Networking, Joerg-Peter Elbers1; 1ADVA Optical Networking SE, Germany. Programmabi- lity, higher speeds and open interfaces bring new challenges and opportunities to optical networks. This talk will explain market and technology trends in metro, core and inter-data center networks. Future research directions will be outlined.

M1E.2 • 09:00 Metro Transport Architectures for Reliable and Ubiquitous Service Pro- visioning, Joao Pedro1, Antonio Eira1 and Nelson Costa1; 1Coriant Portugal, Unipes- soal Lda, Portugal.Node architectures for metropolitan networks carrying 5G-services must balance cost, capacity and flexibility. Filtered/filterless architectures with protection and supporting hub-and- spoke and mesh logical topologies for locally processed service chains are compared, highlighting the resulting trade-offs.

ACP 2018 — Monday, 29 October

08:30-10:30 M1A • Fiber Lasers III Presider: Pu Zhou; National Univ. of Defense Technology, China.

08:30-10:30 M1B • Fiber Bragg Grating Technologies Presider: Wenjun Zhou; Univ. of California Davis, USA.

08:30-10:30 M1C • Optical Interconnects & Wireless Systems Presider: Xingwen Yi; Sun Yat-sen Univ., China.

08:30-10:30 M1D • Performance Monitoring & Metro and Access Networks Presider: Fan Zhang; Peking Univ., China.

08:30-10:30 M1E • New Network Archite- ctures and their Management Presider: Yongli Zhao; BUPT, China.

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M1F.1 • 08:30 High-Performance Optoelectronic Devi- ces Based on Silicon Nanocrystals, Xiaodong Pi1; 1Zhejiang Unversity, China. High-performance photodetectors, near- infrared light-emitting diodes and synaptic devices have been fabricated by using silicon nanocrystals to take advantage of their novel optical properties (e.g., broadband absorption, localized surface plasmon resonance and efficient emission).

M1F.2 • 09:00 On-chip silicon devices for mode- division multiplexing, Yaocheng Shi1; 1Zhejiang Univ., China. The on-chip multi-mode division multiplexing (MDM) transmission offers a new dimension to scale the transmission capacity.In this talk, we will introduce some of the key elements such as the (de)multiplexers, and multimode splitters/bendings/crossings.


M1G.1 • 08:30 Silicon-Based Nonlinear Photonic Dev- ices for Information Processing, Amy Foster1, 1Johns Hopkins Univ., United States. Ultrafast nonlinear optical inter- actions in silicon-based waveguides enable broad-bandwidth information processing. Recent demonstrations in crystalline and amorphous silicon waveguides will be discussed including devices for all-optical logic and information security.

M1G.2 • 09:00 Reconfigurable Optical Signal Processor, Ming Li1, 1Inst. of Semicondcutors, CAS, China. In this talk, I will introduce a few works on reconfigurable optical signal processing, including integrated optical signal processor and incoherent optical signal processor based on time-spectrum convolution.


M1H.1 • 08:30 Ultrafast Broadband Photoexcitation Dynamics in 2D Graphene Hetero- structures, Haiming Zhu1; 1Zhejiang Univ., China. Because of its broadband absorption and high carrier mobility, graphene has shown its great potential in optoelectronic devices. Here we show broadband and ultrafast photoresponse and photoexcitation dynamics in graphene-transition metal dichalcogenide heterostructures.

M1H.2 • 09:00 Temporal Cavity Solitons in the Presence of Amplitude-Modulated Driving Field and Cavity Drift, Wei Chen1, Lina Ma1, Xueliang Zhang1, Xiaoyang Hu1, Chunyan Cao1, Zhou Meng1; 1National Univ. of Defense Technology, China. We study the trapping characteristic of temporal cavity solitons in the presence of cavity drift using pulse-amplitude-modulated driving field. It is found that the special trapping position changes compared with the case without cavity drift.


M1I.1 • 08:30 Measuring the single- and two-photon temporal-spectral wave function, Brian Smith1, Alex Davis2, Valerian Thiel2 and Michal Karpinski3, 1Univ. of Oregon, United States; 2Univ. of Oxford, United Kingdom; 3Univ. of Warsaw, Poland. Here we demonstrate an optical reference-free method to characterize the pulse-mode structure of single- and two-photon states. The approach is based upon spectral- shearing interferometry, which utilizes electro-optic shear achieved by application of linear temporal phase.

M1I.2 • 09:00 Multiphoton Tomography and Simu- lation with Linear Optics and Photon Counting, Leonardo Banchi1, W. Steve Kolthammer1 and Myungshik Kim1, 1Impe- rial College London, United Kingdom. We show that linear optics and photon counting is sufficient to fully characterize an arbitrary multi-mode state containing a definite number of photons. We study then applications in boson sampling and quantum simulation with light


M1J.1 • 08:30 Single Mode and Bistability Coupled- Cavity Semiconductor Lasers, Yongzhen Huang1, Fuli Wang1, Youzeng Hao1, Yuede Yang1 and Jinlong Xiao1; 1Inst. of Semiconductors & Univ. of Chinese Academy of Sciences, China. Mode competition bistability is reported for a square-rectangular coupled cavity semiconductor laser. Single mode operations with a tuning range larger than 30 nm are realized for a coupled-cavity semiconductor laser with a deformed square microcavity.

M1J.2 • 09:00 Vertical-cavity surface-emitting lasers for communication, sensing, and integration, James Lott1; 1Technische Universtität Berlin, Germany. Vertical-cavity surface- emitting lasers with simplified epitaxial structures for integration exhibit small- signal modulation bandwidths (f3dB) exceeding 35 gigahertz. Devices for free-space communications and sensing exhibit f3dB exceeding 20 gigahertz and operating powers exceeding 25 milliwatts.


08:30-10:30 M1F • Silicon Photonics III Presider: Haoshuo Chen; Nokia, USA.

08:30-10:30 M1G • Nonlinear Photonic Signal Processing Presider: Linjie Zhou; Shanghai Jiao Tong Univ., China.

08:30-10:30 M1H • Ultrafast & Nonlinear Optics IV Presider: Fengqiu Wang; Nanjing Univ., China.

08:30-10:30 M1I • Quantum Measurement Presider: Xianmin Jin; Shanghai Jiao Tong Univ., China.

08:30-10:30 M1J • Semiconductor Lasers Presider: Yu Yu; Huazhong Univ. of Science and Technology, China.

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M1A.3 • 09:15 Spatial-Mode Switchable, Multi-Wave- length All-Fiber EDF Laser Based on Low Modal Crosstalk Mode MUX/ DEMUX, Muqing Zhou1, Fang Ren2, Juhao Li1, Dawei Ge1, Zhangyuan Chen1 and Yongqi He1; 1Peking Univ., China; 2Univ. of Science and Technology Beijing, China. We propose a spatial-mode switchable, multiwavelength lasing all-fiber EDF laser based on Sagnac interferometer with mode MUX/DEMUX. Single-, dual-, triple- wavelength lasing for LP01, LP11, LP21 and hybrid modes are obtained with OSNR higher than 20-dB.

M1A.4 • 09:30 Cylindrical Vector Beam Fibre Laser Based on photonic lantern, Yang Xu1, Zuxing Zhang1, Hongdan Wan1 and Yan Li1; 1Nanjing Univ. of Posts and Teleco- mmunications, China. We demonstrate a linear-cavity continuous-wave (CW) fibre laser generating cylindrical vector beams (CVBs) with a photonic lantern. The CVB fibre laser has a a signal-to-background ratio of >45 dB. The measured purity of is >96%.

M1A.5 • 09:45 Orthogonal mode-switching fiber laser based on acoustically-induced fiber grating, Linghao Meng1, Jiafeng Lu1, Fan Shi1, Fufei Pang1 and Xianglong Zeng1;

1Shanghai Univ., China. We demonstrated an orthogonal mode-switching fiber laser based on an acoustically-induced fiber grating (AIFG), which can convert LP01 to LP11a and LP11b modes by modulating the RF frequency.


M1B.3 • 09:15 All-fiber Folded Solc Filters based on 45°-tilted Fiber Gratings, Xi Guo1, Zhikun Xing1, Huabao Qin1, Zhijun Yan1, Qizhen Sun1, Deming Liu1 and Lin Zhang2; 1Huazhong Univ. of Science and Techn- ology, China; 2Aston Univ., United Kingdom. We propose an all-fiber folded Solc filter based on concatenated 45°-TFGs UV-inscribed in polarization- maintaining fiber and polarization- maintaining fiber cavities. The bandwidth of the filter can be freely tailored by utilizing appropriate sections of polarization-maintaining fiber.

M1B.4 • 09:30 Omnidirectional bending sensor based on fiber Bragg gratings inscribed in a seven-core fiber, Maoxiang Hou1, Jun He 1and Yiping Wang1; 1Shenzhen Univ., China. We demonstrated a novel omnidirectional bending sensor by use of FBGs inscribed in a seven-core fiber, which offer several advantages such as a robust structure, fabrication flexibility, and the ability of omnidirectional bend sensing.

M1B.5 • 09:45 Vector Magnetic Field Sensor Based on Excessively Tilted Fiber Grating Assistant with Magnetic Fluid, Tean Lu1, Yuezhen Sun1, Yarien Moreno1, Changle Wang2, Hushan Wang1, Zhijun Yan1, Qizhen Sun1, Deming Liu1 and Lin Zhang2; 1Huazhong Univ. of Science Technology, China; 2Aston Univ., United Kingdom. We demonstrated a vector magnetic field sensor based on an excessively tilted fiber grating immersed in magnetic fluid. It could be achieved that measuring magnetic intensity and orientation by cladding mode wavelength demodulation.


M1C.3 • 09:30 Fast statistical estimation with vector quantization in compressed digital RoF systems, Pu Yu1, Hongliang Ren1, Zichun Le2 and Weisheng Hu3, 1Zhejiang Univ. of Technology, China; 2Zhejiang Univ. of Technology, China; 3Shanghai Jiao Tong Univ., China. A fast statistical estimation algorithm with vector quantification algorithm is proposed for data compression in digitized radio-over-fiber system. Compared with the fast statistical estimation algorithm, performance of error vector magnitude can be improved by 25%.

M1C.4 • 09:45 Performance of wireless optical communication systems based on polarization shift keying modulation over anisotropic non-Kolmogorov turbulence, Ziyang Li1, Jiankun Zhang1 and Anhong Dang1, 1Peking Univ., China. We investigated the polarization crosstalk and signal-to-noise ratio of wireless optical communication systems with polarization modulation in anisotropic turbulence. The results illustrated it is more beneficial when the difference between two anisotropic factors is small.


M1D.3 • 09:15 Transmission Performance of 112-Gb/s PDM-PAM4 Signal over Unrepeatered Raman-amplified Link, Kehang Xu1, Jun Tang1, Yuan Li1, Yong Xiao1, Anlin Yi2 and Lianshan Yan2, 1Southwest China Branch of Sate Grid Corporation of China, China; 2Southwest Jiaotong Univ., China. We propose a cost-effective unrepeatered optical transmission system utilizing PDM-PAM4 signal and Stokes vector receiver. The results show that the optimum launch power is ~4-dB lower for WDM than single carrier over 200 km link.

M1D.4 • 09:30 Optical Signal-to-Noise Ratio Moni- toring Based On Back-Propagation Network with an Autoencoder, Yuxiao Guo1, Muguang Wang1, Hongqian Mu1 and Yan Liu1, 1Beijing Jiaotong Univ., China. A novel optical signal-to-noise ratio (OSNR) monitoring technique is proposed using the Back-Propagation network with an autoencoder. The simulation results show that the OSNR can be estimated precisely.

M1D.5 • 09:45 Wavelength Routing Assignment of Optical Networks on Two Typical LEO Satellite Constellations, Sun Xue1 and Cao Suzhi1, 1Univ. of Chinese Academy of Sciences, China. This paper takes the NeLS and Iridium constellation as examples, and proposes a method to determine the optimal inter-satellite link topology, and establishes a simulation model of two typical constellation routing strategies and wavelength requirements.


M1E.3 • 09:30 Distributed Sub-Tree Based Multicasting Aggregation Scheme in Elastic Optical Data Center Networks, Ying Tang1, Xin Li1, Tao Gao1, Lu Zhang1, Junfeng Guo1, Yongjun Zhang1 and Shanguo Huang1; 1BUPT, China. We investigate distributed sub-tree based multicasting aggregation (DST-MA) scheme which applies multiple distributed sub-trees with different source data centers to multicasting aggregation. The DST-MA scheme outperforms other schemes in spectrum and transceiver consumptions.

M1E.4 • 09:45 Evaluation on Energy Efficiency of Flexible MF-OTP-based EONs in Serving Asymmetric Traffic, Geunsoo Kim1, Jaehoon Kim1 and Limei Peng2; 1Ajou Univ., South Korea; 2Kyungpook National Univ., Korea. We evaluated energy efficiency for flexible node architecture based on multi-flow optical transponders (MF-OTP). Numerical results suggest optimal conditions for power consumption and network resources depends on network resources.


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M1F.3 • 09:30 TE0-to-TE2 Silicon-on-Insulator Internal- ly Dielectric Waveguide Mode Converter, Basma Ibrahem1, Hossam Shalaby1, Mohamed Sharaf1 and Ramesh Pokharel2; 1Egypt-Japan Univ. of Science and Techn- ology (E-JUST), Egypt; 2Graduate School of Information Science and Electrical Engineering, Fukuoka, Japan. A dielectric waveguide, that acts as a fundamental to second-order mode converter with dual polarization capability, is proposed. The proposed device has a very simple structure, low insertion loss, and low crosstalk.

M1F.4 • 09:45 Plasmonic nanotweezers integrated on SOI waveguide for nanoparticle trapping, Aurore Ecarnot1, Giovanni Magno1, Xavier Leroux1, Béatrice Dagens1 and Vy Yam1; 1Center of Nanosciences and Nanotechnologies, France. We numerically and experimentally demonstrate an ultra-efficient trapping of dielectric na- nobeads by a plasmonic nonotweezers composed of gold nanoparticle chain coupled with a SOI waveguide.


M1G.3 • 09:30 Silicon photonic switching for high performance cloud networking, Shu Namiki1, Kazuhiro Ikeda1, Keijiro Suzuki1, Takayuki Kurosu1, Takashi Inoue1, Ryotaro Konoike1, Satoshi Suda1, Hiroyuki Matsuura1, Kiyo Ishii1 and Hitoshi Kawashima1, 1National Inst. of Advanced Industrial Science and Technology (AIST), Japan. This talk will address the background and motivation to utilize photonic-layer switching in order to scale the performance of cloud, particularly beyond the end of Moore’s law where individual electronics will no longer scale.


M1H.3 • 09:15 Black phosphorus-film with an improved drop-casting method for large pulse energy at 1.5 μm, Wei Song1, Huanhuan Liu1, Qiao Jiang1, Ye Yu1, Fufei Pang1, Tingyun Wang1; 1Shanghai Univ., China. We demonstrate a stable Q-switched Er-doped fiber laser incorporating black phosphorus (BP) with an improved drop-casting method. The pulse energy is 468.03 nJ that is the largest one among 1.5-μm Q-switched fiber laser incurporating BP.

M1H.4 • 09:30 Generating Fano Resonances in a single-waveguide nanobeam cavity for efficient electro-optical modulation, Jianhao Zhang1, Xavier Le Roux1, Elena Duran-Valdeiglesias1, Carlos Alonso-Ramos1, Delphine Marris-Morini1, Laurent Vivien1, Sailing He2, Eric Cassan1; 1Univ. Paris-Sud, France; 2Zhejiang Univ., China. We propose a method for generating Fano resonance in a standalone silicon nanobeam cavity. Extinction ratios are 10~15 dB larger than their Lorentzian counterparts. Ultra-fast silicon Fano modulation based on plasma dispersion effect is proposed.

M1H.5 • 09:45 Wide-Spectrum Pulsed Fiber Laser based on Picosecond Pulse Generation Supercontinuum, Peng Lin1, Tianshu Wang1, Junda Chen1, Xinmeng Zhang1, Zhiwen Sun1, Ziqi Jiang1, 1Changchun Univ. of Science and Technology, China. We demonstrated a wide-spectrum pulsed fiber laser by using supercontinuum (SC). Pulse width is 7.95ps and repetition-rate is 4GHz with a 20nm bandwidth. Anomalous dispersion region near the zero dispersion wavelength has a better stability.


M1I.3 • 09:30 Distribution of Gaussian Einstein- Podolsky-Rosen steering, Xiaolong Su1, 1Shanxi Univ., China. We experimentally demonstrate the distribution of a four-mode Gaussian cluster state in order to establish a quantum network with Einstein-Podolsky-Rosen (EPR) steering and distribution of Gaussian EPR steering by separable states in a quantum network.


M1J.3 • 09:30 Controlled phase compensation in HR-AR-coated DFB laser with sampled Bragg grating, Jie Zeng1, Rulei Xiao1, Yating Zhou2 and Xiangfei Chen1; 1Nanjing Univ., China; 2Changzhou Inst. of Tech- nology, China. We propose a method to compensate the random grating phase and tune the lasing wavelength in an HR-AR-coated sampled Bragg grating laser. By selecting different sampled period, we can design different lasing wavelength.

M1J.4 • 09:45 1.3 μm band four-channel directly modulated ADR-DFB laser array integrated with MMI coupler, Gongyuan Zhao1, Gonghai Liu2, Can Liu2, Qiaoyin Lu2 and Weihua Guo2; 1Huazhong Univ. of Science and Technology Wuhan National Laboratory for Optoelectronics, China; 2Wuhan National Laboratory for Opto- electronics, China. A monolithically integrated Four-channel directly modulated ADR (active distributed reflector)-DFB laser array integrated with a multimode interference coupler by vertical resonant couplers for the first time. 3dB modulation bandwidth exceeding 15GHz has been demonstrated.


Invited Invited

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M1A.6 • 10:00 10 kW-level Pump-gain Integrated Functional Laser Fiber, Aoxiang Lin1, Huan Zhan1, Kun Peng1, Xiaolong Wang1, Li Ni1, Yuying Wang1, Yuwei Li1, Shuang Liu1, Shihao Sun1, Jiangli Jiang1, Juan Yu1, Jianjun Wang1 and Feng Jing1; 1China Academy of Engineering Physics, China. By in-situ horizontal fusion and coating technique, a (8+1)-type pump-gain integrated functional laser fiber was fabricated and presented 11.23kW laser output at 1079.4nm. The stable working status at 10.45kW was with slope efficiency of 82.5%.

M1A.7 • 10:15 High quality pulse train from discrete Fourier domain mode locked laser with a comb filter, Zhenhao Cen1, Feng Li2, Qian Li1 and P. K. A. Wai3; 1Peking Univ., China; 2The Hong Kong Polytechnic Univ. Shenzhen Research Inst., China; 3The Hong Kong Polytechnic Univ., Hong Kong. We numerically demonstrate a mechanism to get stable pulse train from discrete Fourier domain mode locked laser. The FSR of comb filter and linewidth of tunable bandpass filter should be optimized to obtain stable output.


M1B.6 • 10:00 Simple and accurate Bragg wavelength detection in multimode plastic FBGs, Tianyi Ma1, Ryo Ishikawa1, Heeyoung Lee1, Antreas Theodosiou2, Kyriacos Kalli2, Yosuke Mizuno1 and Kentaro Nakamura1; 1Tokyo Inst. of Technology, Japan; 2Cyprus Univ. of Technology, Cyprus. Simply tracking some particular spectral peaks of multimode plastic optical fiber Bragg grating results in failure at large strain. Here, we develop a simple method for detecting its Bragg wavelength accurately on a real-time basis.

M1B.7 • 10:15 Application study of high resolution fiber temperature-depth profile measurement system in the North Yellow Sea, Li Wang, Yong-Jie Wang and Fang Li; 1State Key Laboratories of Transducer Technology, Inst. of Semiconductors, Chinese Academy of Sciences，Beijing, China. The fiber temperature-depth measurement system works without human labor input to conveniently provide accurate data in real time. Data is recorded per second, which yields a high-resolution temperature- depth profile and time series.


M1C.5 • 10:00 Throughput Optimization in Hybrid RF/FSO Networks, Weijing Qi1, Qingyang Song1 and Lei Guo1, 1Northeastern Un- iveristy, China. The hybrid Radio Freque- ncy (RF)/Free-Space Optical (FSO) wireless communication is studied. A Mixed Integer Linear Programming (MILP) model is built to achieve throughput optimization. A heuristic algorithm is proposed to obtain a sub-optimal solution efficiently.


M1D.6 • 10:00 Optical frequency transfer over 400km urban fiber network with an fractional frequency instability of 10-19 level, Jie Liu1, Xue Deng1, Qi Zang1, Xiang Zhang1, Dan Wang1, Dongdong Jiao1, Weicheng Kong1 and Tao Liu1, 1National Time Service Centre, Chinese Academy of Science, China. We recently demonstrated an optical frequency transfer link over urban commercial fiber networks in Shaanxi Province. A fractional frequency instability 8.4×10-19 at 10000 s is achieved over the 406-km fiber.

M1D.7 • 10:15 Frequency-Domain Nonlinear Estimation and Equalization Using Intra-Symbol Averaging for 40-Gb/s/wavelength LR-PON, Junwei Zhang1, Changjian Guo2, Jie Liu1, Xiong Wu1, Maochun Wang3, Dongpeng Zhang3, Liang Wang4 and Siyuan Yu1, 1Sun Yat-Sen Univ., China; 2The Hong Kong Polytechnic Univ., Hong Kong; 3South China Normal Univ., China; 4The Chinese Univ. of Hong Kong, China. A frequency-domain nonlinear equalization (FD-NE) method utilizing intra-symbol averaging estimation is proposed and experimentally demonstrated for 40.08-Gbit/s OFDM-IM-DD LR-PON over 60-km SSMF, which reduces the training overhead by 33.3% and improves the nonlinear equalization performance.


M1E.5 • 10:00 Secure Bidirectional Adaptive Resource Allocation in SDN-Enabled 5G Fronthaul Networks, Mingwei Yang1, Houman Rastegarfar1 and Ivan Djordjevic 1; 1Univ. of Arizona, United States. We propose a software-defined resource allocation scheme in a mobile fronthaul (MFH) network that supports dynamic processing resource sharing. Our studies point to the feasibility of guaranteed bit error rate (BER) service using adaptation.

M1E.6 • 10:15 Convergence of 5G RAN and Optical Access: A Coordinated Resource Allo- cation Framework, Yejun Liu1, Chathurika Ranaweera2, Christina Lim2, Lei Guo1, Ampalavanapillai Nirmalathas2 and Elaine Wong2; 1Northeastern Univ., China; 2The Univ. of Melbourne, Australia. A coordinated optical and wireless resource allocation framework is proposed to facilitate the globalized End-to-End (E2E) QoS requirements. The proposed framework proves to be more scalable to increasing network load and to various resource granularities.



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M1F.5 • 10:00 Silicon Photonic Wavelength (De-) Multiplexer for Low-loss Flat-passband DWDM Applications, Xin Fu1, Hao Jia1, Sizhu Shao1, Xiongfeng Fang1, Lei Zhang1 and Lin Yang1; 1Inst. of Semiconductors, Chinese Academy of Sciences, China. A four-channel cascaded Mach-Zehnder wavelength (de-) multiplexer with a small channel spacing of 0.5nm on SOI platform is demonstrated. The device has flat- passband and shows insertion loss lower than 0.5 dB and crosstalk below -18 dB.

M1F.6 • 10:15 On-Chip Coarse Wavelength Division Multiplexers Based on Silicon Sub- wavelength Gratings, Jingye Chen1 and Yaocheng Shi1; 1Zhejiang Univ., China. An ultra-compact 4-channel CWDM with silicon gratings is proposed. The designed device has flat-top passbands of more than 11nm, insertion loss of less than 0.5 dB, and crosstalk of lower than -15 dB with subwavelength gratings.


M1G.4 • 10:00 Designer Oriented Analysis of An All- Optical Binary Delta Sigma Modulator, Ashish Bhatt, Azeemuddin Syed1 and Arpit Khandelwal1, 1International Inst. of Infor- mation Technology, Hyderabad, India. Several designer controllable parameters and their effect on various specifications, like switching time, sampling speed and input amplitude, of all-optical Binary Delta Sigma Modulator (BDSM) are analyzed and possibility of enhancing the performance is discussed.

M1G.5 • 10:15 Topological transition metasurfaces for manipulating terahertz surface wave propagation, Peixia Zheng1, Quan Xu1 and Xiaoqiang Su2, 1Tianjin Univ., China; 2Shanxi Datong Univ., China. Transition metasurfaces proposed in this work open unprecedented venues for anomalous surface wave propagation and guidance which show great capabilities for designing photonic devices.



M1I.4 • 10:00 Heisenberg-limit control-enhanced sequ- ential scheme for general quantum parameter estimation, Guoyong Xiang1, 1USTC, China. We realize a scalable scheme of quantum metrology that can achieve the same precision as the entangled scheme under general non- commuting unitary dynamics. Our work demonstrates the control-enhanced recipe for achieving the Heisenberg precision.


M1J.5 • 10:00 Reducing the RF linewidth and timing jitter of a mode-locked semiconductor laser using optical feedback scheme, Huan Wang1, Lu Guo1, Wu Zhao1, Guangcan Chen1, Dan Lu1 and Lingjuan Zhao1; 1Key Laboratory of Semiconductor Materials Sciences, Inst. of Semiconductors, Chinese Academy of Sciences, China. An optical feedback scheme is proposed and demonstrated to reduce the phase noise of a passive mode-locked laser diode. A minimum RF linewidth of 354 Hz and timing jitter of 220 fs is obtained.

M1J.6 • 10:15 DFB Lasers with an active distributed reflector, Gonghai Liu1, Gongyuan Zhao1, Qiaoyin Lu1 and Weihua Guo1; 1Wuhan National Laboratory for Optoelectronics, China. DFB lasers containing an active distributed reflector, has achieved 10-mA threshold current, 0.37-mW/mA slope efficiency, a 23 GHz modulation bandwidth, and clear 25-Gb/s eye diagram after 30-km SMF transmission.



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M2A.1 • 11:00 Hollow inwall coupled whispering gallery mode microresonators, Xiaobei Zhang1; 1Shanghai Univ., China. We propose and demonstrate hollow inwall couplers such as the silica capillary or hollow core fiber for the coupling of whispering gallery mode microresonators, which provides a novel coupling method for microcavities.


M2B.1 • 11:00 Simultaneous Bending and Temperature Measurements Based on Double Exposed Long Period Fiber Gratings, Lu Huang1, Yunqi Liu1 and Yunhe Zhao1; 1Shanghai Univ., China. We propose a bending sensor based on double exposed long period fiber gratings. The ultrahigh curvature sensitivity is 51.89 dB/m-1 with a range from 0.1586 m-1 to 0.2980 m-1. The temperature sensitivity is -0.0481 nm/℃.

M2B.2 • 11:15 LP01-LP11a/b Mode Converter Based on Long-Period Grating in Elliptical Few-mode Fiber, Zuyao Liu1, Xinyi Zhao1, Yunqi Liu1, Songnian Fu2, Chengbo Mou1 and Fang Zou3; 1Shanghai Univ., China; 2Huazhong Univ. of Science and Technology, China; 3Hebei GEO Univ., China. Long-period fiber grating inscribed into the elliptical few-mode fiber is demonstrated to realize the mode conversion from LP01 mode to LP11a and LP11b mode. The all-fiber mode converter possess high conversion efficiency and environmental stability.


M2C.1 • 11:00 Carrier Regeneration and its Application in Self-Coherent Optical Systems, Chester Shu1 and Qiulin Zhang1, 1The Chinese Univ. of Hong Kong, Hong Kong. We investigate carrier regeneration at the receiver using optical injection locking and stimulated Brillouin scattering for self-coherent detection. The system performances of both conventional homodyne detection and recently proposed Kramers-Kronig detection are reported.


M2D.1 • 11:00 Secure Key Distribution based on Chaos Synchronization and Alternating Step Algorithm, Xiaoyan Zhao1, Ning Jiang1, Hui Wang1, Anke Zhao1 and Kun Qiu1, 1Univ. of Science and Technology of China, China. We propose and numerically demonstrate a secure-key-distribution scheme by using the alternating step algorithm to enhance the rate of original key distributed by the chaos synchronization of two semiconductor lasers subject to common driving injection.

M2D.2 • 11:15 Ciphertext Mapping Method based on Bitwise NOT Operation in Quantum Noise Stream Cipher, Kai Wang1, Yajie Li1, Xiaokun Yang1, Yongli Zhao1 and Jie Zhang1; 1Beijing Univ. of Posts and Telecommunications, China. To balance the effect of quantum noise on different bit positions, we propose a ciphertext mapping method based on Bitwise NOT Operation. Simulation results verify its performance in 16QAM/QNSC with different intensity noises and basises.


M2E.1 • 11:00 Integrating Quantum Key Distribution with the Spatial Division Multiplexing Enabled High Capacity Optical Net- works, Rui Lin1, Aleksejs Udalcovs2, Oskars Ozolins2, Xiaodan Pang1, Lin Gan3, Li Shen3, Ming Tang3, Songnian Fu3, Chen Yang4, Weijun Tong4, Deming Liu3, Thiago Ferreira Da Silva5, Guilherme B. Xavier6 and Jiajia Chen1 ; 1KTH Royal Inst. of Technology, Sweden; RISE Acreo AB, Sweden; 3Huazhong Univ. of Science and Technology, China; 4YOFC, China; 5National Inst. of Metrology, Brazil; 6Institutionen för Systemteknik, Linköpings Univ., Sweden. In this talk, we will present the characterisation of different multi-core fiber in terms of their capability of supporting QKD, verifying the compatibility of QKD co-existing with the high- speed data transmission in SDM system.


11:00-12:30 M2A • Novel Fibers and Applications IV Presider: Changyu Shen; China Jiliang Univ., China.

11:00-12:30 M2B • Long-Period Grating Technologies Presider: Chunliu Zhao, China Jiliang Univ., China.

11:00-12:30 M2C • Short-Reach Systems Presider: Jiangbing Du; Shanghai Jiao Tong Univ., China.

11:00-12:30 M2D • Secured Communication Presider: Yang Yue; Juniper Networks, USA.

11:00-12:45 M2E • Space Division Multiplexing II Presider: Wei Lu; Univ. of Sci. and Tech. of China, China.


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M2F.1 • 11:00 Embedded photonic integrated switches for high-throughput and low-latency interconnect in modern computer architectures, Odile Liboiron-Ladouceur1; 1McGill Univ., Canada. Photonic integrated switches offer augmented inter-chip interconnects communications through careful designed controllers and by exploiting mode division multiplexing. This tutorial will teach about the opportunities offered by silicon photonics while considering the required integrated electronics.


M2G.1 • 11:00 Applications of Integrated Kerr Micro-combs to Radio Frequency and Microwave Photonics, David Moss1, 1Swinburne Univ. of Technology, Australia. We review a wide range of applications of integrated micro-resonator based optical frequency comb sources as the basis for transversal filtering functions for microwave and radio frequency photonic filtering and advanced functions.


M2H.1 • 11:00 SERS platforms for liquid biopsy, Zhuyuan Wang1, Shenfei Zong1 and Yiping Cui1; 1Southeast Univ., China. Exosomes and CTCs are two sensitive biomarkers in liquid biopsies. SERS platform can detect the relevant targets in real blood by spectral information, which holds a great potential in liquid biopsies for clinical cancer diagnosis.


M2I.1 • 11:00 Photon-Velocity Invariance, Symiton- Velocity Invariance and the Extension of Special Relativity, Xiaomin Ren1 and Zh. I. Alferov2, 1Beijing Univ. of Posts and Telecommunications, China; 2Russian-Chinese Joint laboratory of Information Opto- electronics and Nanoheterostructures, China. As an intriguing result of the investigations on nanoheterostructures and based on the well-known photonvelo- city invariance and Einstein’s special theory of relativity (the author prefer to call it high-speed special theory of relativity) as well as the novel concept of symiton- velocity invariance and the previous predictions of the low-speed and furthermore the fullvelocity-scope special relativities, the coordinates-transformation formulas for these predicted special relativities are established, indicating a fundamental advance of the special theory of relativity and probably a good impact on the current space-time concept.


M2J.1 • 11:00 Dispersion-engineered Optical Phased Array for Aliasing-free Beam-steering with a Plateau Envelope, Weihan Xu1, Linjie Zhou1, Liangjun Lu1 and Jianping Chen1; 1Shanghai Jiao Tong Univ. (SJTU), China. We design and fabricate an optical phased array, which demonstrates aliasing-free beam-steering over the entire field-of-view available (-34°~34°). The steering exhibits a plateau envelope, with an intensity fluctuation of less than 0.45 dB from -30°~30°.

M2J.2 • 11:15 Self-bending Image Transmission with Helical Beams, Wei Lin1, Yuanhui Wen1, Yujie Chen1, Yanfeng Zhang1, Lin Liu1, Chunchuan Yang1, Lidan Zhou1 and Siyuan Yu1; 1Sun Yat-sen Univ., China. We demonstrate self-bending image transmission with helical beams, where the image is encoded in Fourier space of the beams, transmitted along self-bending helical trajectories without/with obstruction and successfully retrieved from the beams at the receiving-end.


11:00-12:45 M2F • Optical Switch and Tunable devices II Presider: Daoxin Dai; Zhejiang Univ., China.

11:00-12:45 M2G • Frequency Combs and Applications Presider: Katarzyna Balakier; Univ. College London, UK.

11:00-12:30 M2H • Advanced Optical Diagnostic Technology III Presider: Zhuyuan Wang; Southeast Univ., China.

11:00-12:30 M2I • Single Photon Technology and Relevant New Concepts Presider: Man-Hong Yung; Sou- thern Univ. of Sci. & Tech., China.

11:00-12:45 M2J • Optroelectronics for Free Space Presider: Saeed Sharif Azadeh； IPH, RWTH Aachen Univ., Germany

Invited Tutorial

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M2A.2 • 11:30 Resonant Response and Four-Wave Mixing via Microsphere Coupled with Microfiber Coupler, Ke Liu1, Yang He1, Ao Yang1, Xianglong Zeng1, Fufei Pang1 and Tingyun Wang1; 1Shanghai Univ., China. The microsphere coupled with a microfiber coupler has been investigated in detail. The resonant response is firstly studied. Then we experimentally realized a frequency comb based on four-wave mixing and studied its characteristics.

M2A.3 • 11:45 Power-transfer-function Optimization for Nonlinear-optical Loop Mirror-based Multilevel Amplitude Regenerator, Feng Wen1, Biao Guo1 and Baojian Wu1; 1Univ. of Science and Technology of China, China. Power-transfer function with three plateau regions required for multilevel signal regeneration is experimentally achieved by using the reflection port of a nonlinear optical loop mirror and by optimizing splitting ratios, inner losses and birefringence biases.

M2A.4 • 12:00 Phosphorus Influence on the Photo- darkening Effect of Yb-APS Fiber, Shihao Sun1, Huan Zhan1, Kun Peng1, Li Ni1, Xiaolong Wang1, Yuwei Li1, Shuang Liu1, Jiali Jiang1, Juan Yu1, Pengfei Lu2, Jianjun Wang1, Feng Jing 1and Aoxiang Lin1; 1China Academy of Engineering Physics, China; 2Beijing Univ. of Posts and Telecommunications, China. We fabricated an ytterbium-doped phosphorus- low aluminophosphosilicate ternary laser fiber. Owing to photodarkening and mode instability, the fiber-based kW-level laser setup showed obvious degradation of laser power and slope efficiency as compared to that with cladding-power- stripper-free.


M2B.3 • 11:30 CO2 Laser Inscribed Helical Long-Period Grating in Six-Mode Fiber, Xinyi Zhao1, Zuyao Liu1, Yunqi Liu1, Chengbo Mou1, Lei Shen2, Lei Zhang2 and Jie Luo2; 1Shanghai Univ., China; 2Yangtze optical fiber and cable joint stock limited company, China. We fabricated the helical long-period fiber grating in a six-mode fiber with CO2 laser. The grating realize mode conversion from LP01 to LP21 mode with high efficiency. The mode coupling and sensing characteristics are investigated.

M2B.4 • 11:45 Characteristics of Helical Long-Period Gratings Written in Different SMFs by CO2-Laser, Chengcheng Xu1, Yunqi Liu1, Chen Jiang1 and Tingyun Wang1;

1Shanghai Univ., China. We present the fabrication of helical long-period gratings (HLPGs) in conventional SMF (SMF-28) and dispersion shift SMF (DS-SMF) by CO2-laser. The mode coupling and sensing characteristics of both gratings are investigated experimentally.

M2B.5 • 12:00 Orbital Angular Momentum Generator based on Elliptical-Core Fiber Chiral Long-period Gratings, Yulu Tian1, Ming- hui Chen1 and Li Yang1; 1Univ. of Science and Technology of China, China. The generation of +1st and +2nd order OAM beams is demonstrated experimentally with CLPGs based on commercial polarization maintaining fiber for the first time. It verifies our previous coupled- mode analysis, and the experiments are repeatable.


M2C.2 • 11:30 Very-small optical coherent tranceivers for short-reach transmissions, Kiyoshi Onohara1 and Naoki Suzuki1, 1Mitsubishi Electric Corporation, Japan. We review the recent progress of very-small optical coherent transceivers for short-reach transmissions, and the latest trends in coherent DSP and the accompanying embedded coherent devices are sum- marized from the point of view of miniaturization.

M2C.3 • 12:00 Comparison of Bit-loading and DFT-Spread DMT Signal Transmission in O-band IM/DD System utilizing DML, Dongdong Zou1, Fan Li1 and Zhaohui Li1, 1Sun Yat-sen Univ., China. We experimentally compared the performance of bit-loading and DFT-Spread DMT signal with pre-equalization in IM-DD system. With optimized Quadric Curve (QC) pre- equalization, 95 Gbit/s 32QAM DFT- spread DMT outperforms bit-loading DMT signal with the same bit rate.


M2D.3 • 11:30 Security-enhanced Chaos Communi- cation With non-standard Optical Time Lens, Hui Wang1, Ning Jiang1, Xiaoyan Zhao1, Anke Zhao1 and Kun Qiu1, 1Univ. of Science and Technology of China, China. We propose a security-enhanced chaos communication system by using non- standard optical time lens with chaotic synchronization.

M2D.4 • 11:45 Criterion of complete chaos synchronization for diverse three-node VCSEL networks with coupling delays, Dongzhou Zhong1, Zhenzhen Xiao1 and Guangze Yang1, 1wuyi Univ., China. For diverse three node vertical-cavity surface- emitting laser (VCSEL) networks with uniform time-delayed coupling, we propose a new criterion of the globally complete chaos synchronization (GCCS) among all node lasers by using the mater-stability function (MSF).

M2D.5 • 12:00 Demonstration of Key Generation Scheme Based on Feature Extraction of Optical Fiber Channel, Xiaokun Yang1, Yajie Li1, Guanjun Gao1, Yongli Zhao1, Huibin Zhang1 and Jie Zhang1, 1BUPT, China. This paper proposes a key generation scheme based on feature extraction of optical fiber channel. The experimental results show that the key with good randomness and security can be achieved.


M2E.2 • 11:30 Crosstalk-aware Routing, Spectrum and Mode Assignment in Few Mode Fiber with MIMO Equalization, Shijia Guo1 and Shan Yin1; 1State Key Laboratory of Information Photonics and Optical Communications, China. We propose a crosstalk-aware routing, spectrum and mode assignment scheme with MIMO equalization. The results show that the scheme significantly decreases the impact of modal crosstalk and increases the performance of acceptance ratio.

M2E.3 • 11:45 Cost Comparison of Hierarchical Optical Cross-Connect Architectures for Spatial Channel Networks (SCNs), Yu Asano1 and Masahiko Jinno2; 1Graduate School of Kagawa Univ., Japan; 2Kagawa Univ., Japan. Hierarchical optical cross-connect architectures that support spatial channels and optical channels are compared in terms of required number of optical components and total costs as a function of the number of spatial lanes per link.

M2E.4 • 12:00 Network Performance Analysis of Spatial Division Multiplexing enabled Packet Switching Networks, Tao Jiang1, Jiajia Chen2, Rui Lin2 and Ming Tang1; 1Huazhong Univ. of Science and Technology, China; 2School of Electronical Engineering and Computor Science (EECS), KTH Royal Inst. of Technology, China. We propose a mathematical model based on queue theory to quantify how different spatial division multiplexing (SDM) transmission paradigms impact optical packet switching, providing an insightful guideline for design of SDM networks.


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M2F.2 • 11:45 Compact and electro-optic tunable interleaver in lithium niobate thin film, Xuepeng Li1, Kaixin Chen1 and Lingfang Wang1; 1Univ. of Science and Technology of China, China. We propose and experimenttally demonstrate a compact and electro-optic tunable inter-leaver in lithium niobate thin film. The device exhibits polarization-insensitive center wavelengths and similar electrical wavelength-tuning sensitivity for TE and TM polarized input light, respectively.

M2F.3 • 12:00 Tuable photonic devices based on micro and nanostructured lithium niobate, Huihui Lu1; 1Jinan Univ., China. We propose and combine the high electro-optic coefficient (or nonlinear property) of lithium niobate and its sub-wavelength structures to boost and enhance the light-mater interaction, this progresses the low-voltage driven and miniaturized tunable photonic devices.


M2G.2 • 11:30 Frequency combs for ultra-high capacity communications, Jochen Schroeder1, 1Chalmers Univ. of Technoolgy, Sweden. Optical frequency combs, sets of discrete, phase- and frequency-locked laser lines, offer significant advantages in optical communication. I will discuss our results on using the comb properties to reduce processing overhead and improve transmission performance.

M2G.3 • 12:00 Low Timing-Jitter and Broadband 10 GHz Optical Comb Generation Based on a Phase Locked Optoelectronic Oscill- ator, Huanfa Peng1, Yongchi Xu1, Rui Guo1, Huayang Du1, Jingbiao Chen1 and Zhangyuan Chen1, 1Peking Univ., China. A phase-locked optoelectronic oscillator is proposed to realize low timing-jitter 10GHz optical comb. Over 1-s time scale, the timing-jitter is suppressed by a factor of 844 from 179.5ps to 212.6fs when compared with free-running system.


M2H.2 • 11:30 Advanced bioimaging using rare- earth-doped nanocrystals, Yiqing Lu1; 1Macquarie Univ., Australia. We engineer rare-earth-doped luminescent nanocrystals to provide selectable emission bands, tunable lifetimes, high imaging contrast and optical switching capability. These nanocrystals in conjunction with purpose-built instrumentation enable advanced bioimaging beyond conventional fluorescence techniques.

M2H.3 • 12:00 Volumetric fluorescence imaging combined with modified optical clearing for Alzheimer’s disease pathology, Lina Liu1, Ang Liu1, Wen Xiao1,2, Renjian Li1,2, Xuejuan Hu1,2 and Lingling Chen1,2; 1Shenzhen Univ., China; 2Shenzhen Technology Univ., China. We present the modified UbasM optical clearing and its combination with 3D microscopic and mesoscopic optical imaging techniques for AD pathology research and the corresponding drug development.


M2I.2 • 11:30 InAs QDs on (111)-faceted Si (001) hollow substrates with strong emission at 1300 nm and 1550 nm, Wenqi Wei1, Ting Wang1 and Jianjun Zhang1, 1IOP, CAS, China. Strong room-temperature emission of InAs/GaAs and InAs/InGaAs quantum dots (QDs) at O-band (1300 nm) and C/L-band (1550 nm) telecommunication wavelengths are both achieved on Si (001) substrates by the III-V/IV dual chamber MBE system.

M2I.3 • 11:45 RF-amplifier-free superconducting nanowire single-photon detector system, Xiaoming Chi1, Kai Zou1, Nan Hu1, Julien Zichi2, Val Zwiller2 and Xiaolong Hu1, 1Tianjin Univ., China; 2KTH Royal Inst. of Technology, Sweden. We used a superconducting nanowire single photon detector integrated with a current reservoir to demonstrate RF-amplifier-free photon counting which increased the device efficiency from 26% to 32% and reduced the L/R constant by 1.27 times.

M2I.4 • 12:00 Quantum Phase Transition in Strongly- Correlated Cavity Polaritons, Jian Xue1, Kangjun Seo2, Lin Tian2 and Tao Xiang1, 1Inst. of physics, Chinese Academy of Science, China; 2School of Nature Sciences, Univ. of California, USA. We study the quantum critical behavior in a multicon- nected Jaynes-Cummings lattice using the density-matrix renormalization group method, where cavity polaritons exhibit a Mott-insulator-to-superfluid phase transition. We calculate the phase boundaries and the quantum critical points.


M2J.3 • 11:30 Development of wireless specific mosquito counter by optical technology, Jinlei Wang1, Xun Wang1, Ying Li1, Zheng Duan1, Sune Svanberg1-2 and Guangyu Zhao1; 1South China Normal Univ., Sweden; 2Lund Univ., Sweden. Mosquitoes carry malaria and dengue fever and constitute a great threat to public health. We develop a wireless mosquito counting device which can provide valuable statistic information.

M2J.4 • 11:45 Remote LIBS Measurements on Metals Using a Mobile Lidar System, Zheng Duan1, Ying Li1, Jinlei Wang1, Lingna Hu1, Sune Svanberg2 and Guangyu Zhao1; 1South China Normal Univ., Sweden; 2Lund Univ. and South China Normal Univ., Sweden. The preliminary remote laser- induced breakdown spectroscopy measurement of metals is performed on a mobile lidar system. The Nd: YAG laser synchronized with an ICCD spectrometer, the detection range can be achieved up to 45 m.

M2J.5 • 12:00 Analysis of Response Time Characteristics of Polymer-based Microlens, Tao Chen1, Feiyan Li1, Zhongcheng Liang1, Rui Zhao1 and Meimei Kong1; 1Nanjing Univ. of Posts and Telecommunications, China. For the characteristics of polymer-based microlens, Using dimensional analysis, we analyze the relationship of the 5 basic parameters, such as response time, liquid density, coefficient of viscosity, modulus of elasticity and the inner diameter of lens.


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M2A.5 • 12:15 Luminescence characteristics of PbS semiconductor in silica optical fiber, Jiajia Zheng1, Yanhua Dong1, Xiangping Pan1, Caiyun Su1, Jianxiang Wen1, Fufei Pang1, Zhenyi Chen1 and Tingyun Wang1; 1Shanghai Univ., China. The luminescence characteristics of PbS semiconductor in silica optical fiber are investigated. The luminescence spectrum covers a broad bandwith of 1100-1350 nm. In addition, there are obvious absorption peaks at 650 and 1022 nm bands.


M2B.6 • 12:15 Wideband and polarization-insensitive band-rejection filter realized by using two cascaded helical long-period fibre gratings, Chengliang Zhu1, Hua Zhao2 and Hongpu Li1; 1Shizuoka Univ., Japan; 2Nanjing Normal Univ., China. By using cascaded single-helix helical long-period fibre gratings (SHLPGs) combined with a cladding-mode stripper, a simple and efficient method of production of a polarization-insensitive flat-top band- rejection filter has been proposed and experimentally demonstrated.


M2C.4 • 12:15 Nonlinearity-Aware 260-Gbit/s DMT Transmission Using Frequency-Domain Volterra Equalization for Short-Reach Optical Interconnects, Yongsheng Xu1, Junwei Zhang2, Ziqi Lin1, Langyu Yi1, Sen Zhang3, Tianjian Zuo3, Lei Liu3, Jie Liu2 and Changjian Guo1, 1South China Normal Univ., China; 2Sun Yat-Sen Univ., China; 3Huawei Technologies Co., Ltd, China. We experimentally demonstrate a 260-Gbit/s DMT IM-DD short-reach transmission system using frequency-domain nonlinear equalization (FD-NE) over 500-m SSMF. Compared with FD linear equalization (FD-LE), around 11% capacity improvement can be achieved by utilizing the FD-NE.



M2E.5 • 12:15 Dynamic Routing, Core, and Spectrum Assignment with Minimized Crosstalk in Spatial Division Multiplexing Elastic Optical Networks, Yu Lei1, Bowen Chen1, Mingyi Gao1, Lian Xiang1 and Qianwu Zhang2; 1Soochow Univ., China; 2Shanghai Univ., China. We propose a new routing, core, and spectrum assignment with minimized crosstalk by evaluating the inter-core crosstalk measurement in spatial division multiplexing elastic optical networks. Simulation results demonstrate the proposed algorithm greatly reduce the crosstalk.

M2E.6 • 12:30 Service-Classified Routing, Core, and Spectrum Assignment in Spatial Division Multiplexing Elastic Optical Networks With Multicore Fiber, Qingcheng Zhu1, Lulu Lv1, Lei Zhu1, Ting Wang1, Lihang Gao1, Yu Lei1, Bowen Chen1 and Qianwu Zhang2; 1Soochow Univ., China; 2Shanghai Univ., China. A service-classified routing, core, and spectrum assignment is proposed to improve the spectrum efficiency in spatial division multiplexing elastic optical networks with multicore fiber. Simulation results demonstrate the effectiveness of our proposed algorithms.



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M2F.4 • 12:15 Silicon microring resonators tuned with GST phase change material, Hanyu Zhang1, Linjie Zhou1, Jian Xu1, Liangjun Lu1, Jianping Chen1 and B. M. A. Rahman2; 1Shanghai Jiao Tong Univ., China; 2City, Univ. of London, United Kingdom. We investigate silicon microring resonators embedded with Ge2Sb2Te5. The phase change is induced all optically by using a sequence of optical pulses. The tuning is non-volatile and repeatable, which can be employed for optical trimming.

M2F.5 • 12:30 Non-volatile optical memory based on a slot nanobeam resonator filled with GST material, Hao Hu1, Hanyu Zhang1 and Linjie Zhou1; 1SJTU, China. We propose a multi-level phase-change memory device based on a Ge2Sb2Te5 (GST)-filled silicon slot nanobeam cavity. Simulations show that nanobeam resonance can be tuned step-by-step through phase change of GST, allowing for optical data multi-level storage.


M2G.4 • 12:15 A Scheme for Broadband Optical Frequency Comb Generation, Fei Wang1, Lun Shi1, Mengmeng Peng1, Jingxin Huang1 and Wen Kang1, 1Chongqing Univ. of Technology, China. We propose a broadband optical frequency comb generator using an injection-locking fiber ring laser with single phase modulator within ring cavity and highly nonlinear fiber as spectrum expander based on cascaded four-wave mixing.

M2G.5 • 12:30 Polarization-dependent High Quality Optical Frequency Comb Generator Based on Recirculating Frequency Shift, Lin Tao1, Zhao Shanghong1, Zihang Zhu1, Xuan Li1, Zhang Kun1 and Jiang Wei2, 1Air Force Engineering Univ., China; 2National Key Laboratory of Science and Technology on Space Microwave, China. A polarization-dependent optical frequency comb (OFC) generation scheme based on recirculating frequency shift (RFS) is proposed. The simulation results show that the proposed scheme can generate a 120-line OFC with flatness of 3.91 dB.


M2H.4 • 12:15 Optical Diffusion Model for Cuboid Geometry and Its Application in Tomography, Yubo Duan1 and Nanguang Chen2; 1Hangzhou Onenorth Medical Technologies Ltd., China; 2National Univ. of Singapore, Singapore. Diffuse optical tomography (DOT) is promising for noninvasive imaging of deep tissue. Here we derive an analytic forward model based on cuboid geometry and apply this model to process DOT data in Laplacian domain.


M2I.5 • 12:15 Heigh effcient single photon source based on photonic molecule with low tunneling strength containing a quantum dot, Zhu Ziang1, Yu Zhongyuan1, Ye Han1, Liu Yumin1 and Xu Wenbin2, 1State Key Laboratory of Information Photonics and Optical Communications, China; 2Science and Technology on Optical Radiation Laboratory, China. We proposed a novel quantum single photon source scheme based on solid-state system with realistic system parameters and excellent performance.


M2J.6 • 12:15 Non Spherical Particle Size Retrieval by Multi Angles Multi Wavelengths For- ward Light Scattering and Collimated Transmittance, Md Arafat Islam1, Hong Qi2, Junyou Zhang2 and Liming Ruan2; 1Harbin Inst. of Technology, P.R. China, Bangladesh; 2Harbin Inst. of Technology, P.R. China, China .Multiple angles multi wavelengths forward light scattering intensity and spectral collimated transmittance signals are integrated with IQPSO algorithm for retrieval of particle size distribution and complex reflective index of oblate and prolate spheroids.

M2J.7 • 12:30 Integrated Nanoantenna Gratings For Planar Holographic Signalisation System, Benjamin Leroy1, Giovanni Magno1, David Barat2, Laetitia Pradere2 and Beatrice Dagens1; 1CNRS, Université ParisSud, C2N, France; 2Groupe PSA, France. Plasmonic nanoantenna gratings are integrated on a waveguide to generate an out-of-plane beam at 633nm. The versatility of such elementary emitters allows obtaining coherent, directive and uniform beam on large area for planar holography applications.



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M3A.1 • 14:00 All-Fiber Passively Mode-Locked Erbium-Doped Fiber Laser Using a Femtosecond Laser Inscribed 45°-Tilted Fiber Grating, Zinan Huang1, Qianqian Huang1, Chuanhang Zou1, Chengbo Mou1, Kyriacos Kalli2 and Antreas Theodosiou2; 1Shanghai Univ., China; 2Cyprus Univ. of Technology, Cyprus. A passively mode- locked fiber laser using femtosecond laser inscribed plane-by-plane 45°-tilted fiber grating is experimentally demonstrated. The generated solitons center at 1561.8 nm with bandwidth reaching 7.14 nm and pulse width of 1.1 ps.

M3A.2 • 14:15 1.92GHz L-band passively harmonic mode-locked Er-doped fiber laser based on a 45° tilted fiber grating, Yuanda Ling1, Qianqian Huang1, Chuanhang Zou1, Chengbo Mou1, Zhijun Yan2 and Lin Zhang3; 1 Shanghai Univ., China; 2Hua- zhong Univ. of Science and Technology, China; 3Aston Univ., China. We have demonstrated an L-band passively harmonic mode-locked Er-doped fiber laser based on nonlinear polarization rotation (NPR) using a 45°tilted fiber grating. 1.9GHz repetition rate was obtained.


M3B.1 • 14:00 Temperature sensors operating near the dispersion turning point of microfiber based two-mode fiber, Fang Fang1, Bing Sun1, Zuxing Zhang1, Lin Zhang2, Jing Xu3 and Wei Wei1; 1Nanjing Univ. of Posts and Telelcommunications, China; 2 Aston Univ., United Kingdom; 3Zhejiang Univ., China. The dispersion turning point (DTP) of the refractive index (RI) sensitivity based on the tapered twin-mode fiber (TTMF) is explored. An improved sensitivity of ∼49.4 nm/°C is achieved, which is a competitive result.

M3B.2 • 14:15 High-sensitivity Optical Humidity Sensing Based on Polymer Microfiber Cavity-Coupled Metallic Nanorod, Ning Zhou1, Pan Wang1, Zhangxing Shi1, Xin Guo1, Limin Tong1 and Jianrong Qiu1; 1Zhejiang Univ., China. We demonstrate a high-sensitivity relative humidity (RH) sensor taking advantage of single-band ultranarrow plasmon resonance of a single Au nanorod strongly coupling to a whispering gallery cavity of a polyacry- lamide microfiber.


M3C.1 • 14:00 Non-Orthognal Basis Expansion Based Phase Noise Suppression Method for CO-OFDM System, Yue Liu1, Chuanchuan Yang1, Cheng Zhang1, Anzhong Liang1, Zheng Gao1 and Hongbin Li1, 1Peking Univ., China. We propose a new non-orthogonal basis expansion based phase noise suppression method for CO-OFDM system. The numerical results show that the system performance can be improved greatly compared with the conventional orthogonal basis expansion method.

M3C.2 • 14:15 A Modified Timing Synchronization Method for OFDM Systems, Lei Zhang1, Tao Yang1, Huan Chen1, Haoyuan Pan1 and Xue Chen1, 1BeijingUniv. Of Posts and Telecommunications, China. A modified timing synchronization method has been proposed for CO-OFDM systems. Simula- tion results show that the proposed method can provide higher accuracy with the influence of CD compared with Schmidl’s and Minn’s methods.


M3D.1 • 14:00 Sunlight Enabled Vehicle Detection by LED Street Lights, Weicheng Xue1, Shangbin Li1 and Zhengyuan Xu1, 1Univ. of Science and Technology of China. We propose a traffic sensing system that utilizes the photoelectric responses of the LED street lights to ambient light. A support vector machine based learning algorithm is developed to classify whether a vehicle passed by.

M3D.2 • 14:15 Research on free-space optical communication performance under various weather conditions, Jie Pang1 and Shanhong You1, 1Soochow Univ., China. In this paper, we analyze the performance of FSO communication under different weather conditions based on theoretical loss model and Monte Carlo simulation model.


M3E.1 • 14:00 Dynamic Controller Deployment for Mixed-Grid Optical Networks, Sabidur Rahman1, Tanjila Ahmed1, Sifat Ferdousi1, Partha Bhaumik1, Pulak Chowdhury1, Massimo Tornatore1,2, Goutam Das3 and Biswanath Mukherjee1 ; 1Univ. of California, Davis,USA; 2Politecnico di Milano, Italy; 3Indian Inst. of Technology, Kharagpur, India.Co-existing fixed-grid and flex-grid optical networks controlled by Optical Network Controllers and Software-Defined Network Controllers introduce new challenges for network orchestration. Optimal deployment of these controllers is important for efficient management of mixed-grid optical networks.


14:00-16:00 M3A • Mode-Locked Fiber Lasers Presider: Zuxing Zhang; Nanjing Univ. of Posts and Telecommuni- cations, China.

14:00-16:00 M3B • Novel Fibers & Sensors Presider: Jun He; Shenzhen Univ., China.

14:00-16:00 M3C • OFDM Presider: Wei Xu; Tsinghua Univ., China.

14:00-16:00 M3D • Transmission Related Technologies Presider: Xiaoguang Zhang; BUPT, China.

14:00-16:00 M3E • Cross-layer Optimization for Core and Edge Presider: Rui Lin; KTH Royal Inst. of Technology, Sweden.

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M3F.1 • 14:00 High-performance on-chip Bragg grating filters, Dorian Oser1, Xavier Le Roux1, Florent Mazeas2, Diego Pérez- Galacho1, Daniel Benedikovic1, Elena Durán-Valdeiglesias1, Vladyslav Vakarin1, Olivier Alibart2, Pavel Cheben3, Sébastien Tanzilli2, Laurent Labonté2, Delphine Marris-Morini1, Eric Cassan1, Laurent Vivien1 and Carlos Alonso-Ramos1; 1C2N Univ. Paris Sud, Univ. Paris Saclay, France; INPHYNI Univ. Côte d’Azur, France; 3National Research Council, Canada. Advanced subwavelength and symmetry engineering allow overcoming the bandwidth-rejection trade-off in state-of- the-art silicon Bragg filters. Here, we experimentally show flexible control over the resonance profile, paving the way for the implementation of high-rejection on-chip filters.


M3G.1 • 14:00 Brillouin circuits for high-performance microwave photonic applications, Yang Liu1, Amol Choudhary1, David Marpaung2 and Benjamin Eggleton1, 1The Univ. of Sydney, Australia; 1Univ. of Twente, Netherlands. The recent progress of high-performance microwave photonic signal processing is presented, with the emphasis of a novel scheme combining the nonlinear Brillouin processing and the linear optical device, as well as the on-chip implementation.


M3H.1 • 14:00 Tailoring photocarrier dynamics in emerging low-dimensional materials, Feng- qiu Wang, Nanjing Univ., China. I will present our group's recent works on controlling the photocarrier dynamics of two important material class including 2d semiconductors and graphene-like materials. Advanced optoelectronic applications based on their heterostructures will also be reported.


M3I.1 • 14:00 Second order photonic topological insulator states in waveguide lattices, Feng Mei1, 1Shanxi Univ., China. Higher- order topological insulators recently broaden our understanding on topological phases. Here we present a mechanism to realize static and Floquet second order photonic topological insulator states in two-dimensional waveguide lattices.


M3J.1 • 14:00 Label-free differentiation of floating cells by polarized photon scattering, R. Liao and H. Ma, Graduate School at Shenzhen, 1Tsinghua Univ., China. 2Changes in the state of polarization (SOP) during polarized photon scattering encode rich information on the optical properties and microstructural features of the scattering objects, such as biological tissues or cells. We present a polarized light scattering method for differentiating organic and inorganic particles suspended in water, particularly marine algae. Experimental results and simulations prove the feasibility of this new techniques and instrumentations for marine observations, and may serve as a proof-of-concept system of label-free flow cytometer for biomedical applications.


14:00-16:00 M3F • Silicon Photonics IV Presider: Yaocheng Shi; Zhejiang Univ., China.

14:00-16:00 M3G • Microwave Photonics & Brillouin Effect Presider: Shiming Gao; Zhejiang Univ., China.

14:00-16:00 M3H • Ultrafast & Nonlinear Optics V Presider: Haiming Zhu; Zhejiang Univ., China.

14:00-16:00 M3I • Quantum Simulation and Machine Learning Presider: Raffaele Santagati; Univ. of Bristol, UK.

14:00-16:00 M3J • Biophotonic Technology Presider: Jun Qian; Zhejiang Univ., China.

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M3A.3 • 14:30 Long-Term Stable Mode-Locked Fiber Laser at 2 μm Based on Black Phosphorus, Xiaoxi Jin1, Tao Wang1, Hanshuo Wu1, Jiaxin Song1, Jian Wu1, Rongtao Su1 and Pu Zhou1; 1National Univ. of Defense Technology, China. We demonstrated a long-term stable mode- locked fiber laser at 2 μm based on black phosphorus (BP) with up to 20 days operation. Electrochemical delamination strategy exfoliation process was used to prepare the air-stable BP flakes.

M3A.4 • 14:45 Generation and Evolution of Harmonic Mode-Locked Square Pulse in an Yb-Doped Fiber Laser, Xingliang Li1, Ce Shang1, Zhenjun Yang1, Shumin Zhang1, Huiyun Han1 and Lisha Liu1; 1Hebei Normal Univ., China. The Generation and Evol- ution of harmonic mode-locked (HML) square pulse in an Yb-doped fiber laser have been numerically and experimentally investigated in an all-normal-dispersion Yb-doped figure-eight passively mode- locked fiber laser.

M3A.5 • 15:00 Passively Harmonic Mode-locked Er- doped Fiber Laser At 1.15 GHz By Carbon Nanotubes Film Saturable Absorber, Qianqian Huang1, Chuanhang Zou1, Tianxing Wang2, Chengbo Mou1, Mohammed Al Araimi3 and Aleksey Rozhin3; 1Shanghai Univ., China; 2Shanghai Inst. of Optics and Fine Mechanics Chinese Academy of Sciences, China; 3Aston Univ., United Kingdom. A passively harmonic mode-locked Er-doped fiber laser based on carbon nanotubes film is demonstrated. The 42nd order of harmonic mode-locking corresponding to 1.15 GHz with 39.17 dB super-mode suppression ratio is obtained.


M3B.3 • 14:30 Highly sensitive temperature sensor based on a tapered-drawing and arc discharging fiber, Jian Geng1, Xiaojun Zhu1 and Guoan Zhang1; 1Nantong Univ., China. We present a highly sensitive temperature sensor with Mach-Zehnder interferometer (MZI) based on tapered- drawing and arc discharging. Due to conical area was formed by cladding completely, the temperature sensor has high sensitivity (up to 1nm/°C).

M3B.4 • 14:45 Synchronous Digital Quadrature Demo- dulation Technique for Resonant Optic Gyroscopes, Chuanbin Wu1, Yi Lin1, Sen Ye1, Guhong Zhang1, Huilian Ma1 and Zhonghe Jin1; 1Zhejiang Univ., China. A synchronous digital quadrature demodulation technique for resonant optic gyroscopes is proposed. Both numerical and experimental results indicate that the demodulation curve of the system is insensitive to phase fluctuation, thus achieving high signal-to-noise ratio.

M3B.5 • 15:00 Theory for Mode Coupling in Non-Ideal Ring Fibers, Bin Zhang1, Xia Zhang1, Xiaoguang Zhang2, Zhenshan Yang1, Chenglin Bai1and Minghua Cao3;1

Liaocheng Univ., China; 2Beijing Univ. of Posts and Telecommunications, China; 3Lanzhou Univ. of Technology, China. We quantitatively study the coupling of ideal modes under perturbation of a ring fiber. Our results indicate that a widely accepted criterion against the coupling of EHm-1,n and HEm+1,n modes may be inadequate.


M3C.3 • 14:30 Five Loaded Preambles Based Channel Estimation Method for CO-OFDM/ OQAM Systems, Xi Fang1, Zhufeng Suo1, Jianxin Wang1, Lei Zhang1 and Xianwei Gao1, 1Beijing Electronic Science and Technology Inst., China. In this paper, we systemically discussed a novel frequency domain channel estimation method based on five loaded preambles for CO-OFDM/OQAM. The channel estimation accuracy could be improved significantly with the using of the proposed method.

M3C.4 • 14:45 Time Domain Synchronous OFDM System for Optical Fiber Comm- unications, Chenxin Jing1, Xianfeng Tang1 and Xiaoguang Zhang1, 1State Key Laboratory of Information Photonics and Optical Communications, China. TDS- OFDM, a spectrum efficient scheme is introduced into optical communication. It uses PN sequence as guard interval which realizes synchronization and channel estimation. BER of 16QAM OFDM is below 3.8e-3 at the OSNR of 16dB.

M3C.5 • 15:00 Demonstration of Optical Direct- Detection OFDM Signal Amplified by Single Pump Fiber Optical Parametric Amplifier, Kai Wang1, 1BUPT, China. We demonstrate experimentally an optical direct-detection OFDM signal with phase mismatched single pump fiber optical parametric amplifier. The results show it can raise the data rate and OSNR up to 12.82 Gb/s and 16dB, respectively.


M3D.3 • 14:30 Transceiver In-phase and Quadrature Imbalance Monitoring by Two Stage MIMO Equalizers, Liang Junpeng1, Fan Yangyang1, Tao Zhenning1, Nakashima Hisao2 and Hoshida Takeshi2, 1Fujitsu R&D Center, China; 2Fujitsu Laboratories Ltd, China. We demonstrate each IQ imbalance in transceiver can be separately monitored by two-stage 4x4 MIMO equalizers without obvious interaction across a wide operation range if a small frequency offset exists.

M3D.4 • 14:45 Physical Layer Abstraction Utilizing OSNR Montioring Based on Deep Neural Network, Le Xia1, Jing Zhang1, Yingxiong Song2, Qianwu Zhang2, Xiang Li3 and Kun Qiu1, 1Univ. of Elec. Sci. & Tech. of China, China; 2Shanghai Univ., China; 3Wuhan Research Inst. of Posts and Telecommunications, China. We demonstrate a deep neural network (DNN) trained with amplitude histograms (AHs) for optical performancemonitoring in a 28-GBd PAM4 based direct detection system. Both simulation and experimental results shows DNN cansuccessfully estimate OSNRs.

M3D.5 • 15:00 Numerical investigation of method combined Doppler Effect with multi- beam laser heterodyne for measurement of the small angle, Shengqian Wang1, Yong Liu1 and Yanchao Li1, 1HeiLongJiang Univ., China. This paper proposes a novel method is used to measure angle, namely multi-beam laser heterodyne measurement for angle. The obtained result shows that the relative measurement error of this method is just 0.5216%.


M3E.2 • 14:30 An end-to-end IP and optical collaborative solution for 5G transport network, Ran Pang1,2, Hui Li1, Guangquan Wang2, Yuefeng Ji1, Xiangkun Man2 and Shikui Shen2; 1Beijing Univ. of Post and Telecommunications, China; 2Network Technology Research Inst., China Unicom, China. This paper proposes a 5G transport solution based on IP and optical end- to-end collaboration to achieve the goal of multi-service integrated transport, and proposes a target scenario and architecture, introduces IP and optical collaboration solutions.

M3E.3 • 14:45 Experimental Demonstration of Flexible Hardware Acceleration in 5G MEC Infrastructure, Qiang Tang1, Rentao Gu1, Geng Zhang2, Shuai Wang1, Yanan Wang2, Yang Wang2 and Yuefeng Ji1; 1BUPT, China; 2China Electric Power Research Inst., China. We demonstrated a flexible hardware acceleration scheme for computing- intensive processing and traffic forwarding in 5G MEC infrastructure. Our architecture takes obvious advantages in flexibility, capability and resource utilization.

M3E.4 • 15:00 Energy efficient Placement of Baseband Functions and Mobile Edge Computing in 5G Networks, Yuming Xiao1, Jiawei Zhang1 and Yuefeng Ji1; 1Beijing Univ. of Posts and Telecommunications, China. We propose and compare different potential placement schemes for baseband functions and mobile edge computing on their energy efficiency. Simulation results show that NFV enabled flexible placement reduces more than 20% power than traditional solutions.


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M3F.2 • 14:30 Heterogeneously Integrated Quantum- Dot Photonics on Silicon, Di Liang1, Geza Kurczveil1, Chong Zhang1, Antoine Descos1, Bassem Tossoun1, Yingtao Hu1, Marco Fiorentino1 and Raymond Beausoleil1; 1Hewlett Packard Enterprise, United States. We review our recent progress on building heterogeneous robust and high- performance quantum-dot-based lasers and photodetectors. It aims to provide a versatile silicon-based photonic integration platform for volume applications in datacom and new emerging applications.

M3F.3 • 15:00 Optically pumped low threshold InAs/ GaAs quantum-dot micropillar laser on Si (001) hollow substrate, Bin Zhang1, Weiqi We1i, Jianhuan Wang1, Hui Cong1, Ting Wang1 and Jianjun Zhang1; 1Inst. of Physics, Chinese Academy of Sciences, China. Optically pumped micropillar laser on Si (001) is demonstrated by a novel- faceted-sawtooth Si hollow structure via IV/III-V hybrid epitaxy. The lasing threshold is sub-milliwatts, with excellent spectral stability at operating temperature up to 100 ˚C.


M3G.2 • 14:30 Brillouin suppression through engineering of fiber structure, Kazi Abedin1, 1OFS Laboratories, United States. Various methods of suppression of Brillouin scattering of cw light in fiber, particularly through structural modification will be discussed. SBS-threshold is enhanced by 5.2dB using a fiber with core-offset of 35micron and twist-rate of 50turns/m.

M3G.3 • 15:00 Multi-passband microwave photonic filters and their applications, Hongyan Fu1, Rui Wu1, Xinying Chen1 and Hao Chen1, 1Xiamen Univ., China. Approaches to implementing multi-passband microwave photonic filters have been proposed and demonstrated. MPFs with periodic and nonperiodic multiple passbands using multi-wavelength optical source and dispersive medium have been studied and their applications have been discussed.


M3H.2 • 14:30 Applications of Low Noise Brillouin Amplifiers for 64QAM Coherent Communications, Mark Pelusi1, Takashi Inoue2, Shu Namiki2; 1The Univ. of Sydney, Australia; 2National Inst. of Advanced Industrial Science and Technology (AIST), Japan. Application of Brillouin amplification to 64-QAM communications is presented showing the benefit of narrowband gain for suppressing wideband noise from signal carriers before data modulation, and pilot tone based carrier recovery for coherent detection.

M3H.3 • 15:00 Stable Dark Pulses Produced by the MoS2 Saturable Absorber Mode-locked Fiber Laser, Qianchao Wu1, Yong Yao1, Han Zhu1, Dandan Xu1, Rui Wang1, Yanfu Yang1, Jiajun Tian1; 1Harbin Inst. of Technology, China. We reported on the experimental generation of dark pulse from a passively mode-locked fiber laser based on the interaction between the evanescent light and two dimensional material molybdenum disulfide (MoS2) on the microfiber.


M3I.2 • 14:30 Quantum generalisations of feed- forward neural nets: constructions and applications, Oscar Dahlsten1, 1SUSTech, China. We propose a quantum generali- sation of a classical neural network. It can naturally be implemented photonically. We use the approach for quantum autoen- coders, discovering quantum communi- catino protocol and learning Simon's algorithm.

M3I.3 • 15:00 Test evaluation and standardization progress of QKD based quantum secure communication, Jun-Sen Lai1, Wen-Yu Zhao1, Hai-Yi Zhang1, Bing-Bing Wu1, Rui Tang1 and Xin Zhao1, 1China Academy of Information and Communication Tech. (CAICT), China. Test and evaluation framework of quantum key distribution (QKD) based quantum secure communication are proposed, test requirements and methods are investigated, standardization progress are reviewed, and future challenges are also discussed.


M3J.2 • 14:30 Optical probes for monitoring the tumor related bioactive molecules, Peng Wang1, Yueqing Gu1; 1Department of Biomedical Engineering, School of Engineering, China. Many bioactive molecules including ROS、RNS 、 H2S 、 GSH are related to the development and progression of tumors. The optical probes technique provides an attractive approach for monitoring the tumor related bioactive molecules. Based on their particular characteristics, we designed and synthesized several optical probes for detecting these bioactive molecules. These probes have great competence to monitor endogenous bioactive molecules in living cells and in vivo, and have huge potentiality to be employed in the diagnosis of cancers.

M3J.3 • 15:00 Smartphone based Pentraxin 3 enzyme- linked immunosorbent assay for point- of-care cardiovascular disease monitoring, Wei Li1, Bo Dai1, Shujing Chen1, Lulu Zheng1, Xuhua Wang1 and Dawei Zhang1; 1Univ. of Shanghai for Science and Technology, China. A smartphone based remote colorimetric bioanalytical assay for cardiovascular disease monitoring is proposed and demonstration.



Invited

Invited

Monday, 29 O

ctober

Invited



M3A.6 • 15:15 Noise-Like Pulses in an Erbium-Doped Fiber Laser Based on 45° Tilted Fiber Grating, Xi Cheng1, Qianqian Huang1, Chuanhang Zou1, Chengbo Mou1, Zhijun Yan2 and Lin Zhang3; 1Shanghai Univ., China; 2Huazhong Univ. of Science and Technology, China; 3Aston Univ., China. We report on the generation of noise-like pulses from a passively mode-locked erbium-doped fiber laser based on 45° titled fiber grating. The 3dB spectral bandwidth of the pulses is about 21 nm.

M3A.7 • 15:30 Mode-locked pulses in a multimode fiber laser, Han Wu1, Wei Lin1, Shu-Hong Huang1, Yan-Jie Tan1, Ai-Ping Luo1, Zhi-Chao Luo 1and Wen-Cheng Xu1; 1South China Normal Univ., China. We report a mode-locked multimode fiber laser based on SESAM. The mode-locked pulses with central wavelength of 1028.1 nm and 1029.3 nm are generated. The pump power is as low as 460 mW.

M3A.8 • 15:45 Self-starting dual mode-locking Er- doped fiber laser with low repetition rate, Dongfang Jia1, Yiting Jin1, Xu Sun1, Zihao Li1, Chunfeng Ge1 and Zhaoying Wang1; 1Tianjin Univ., China. We have demonstrated a stable, self-starting erbium-doped fiber laser with low repetition rate by using of dual mode- locking mechanisms, nonlinear polarization rotation (NPR) and semiconductor saturable absorber mirror (SESAM).


M3B.6 • 15:15 Polarization-Maintaining Few-Mode Op- tical Fibers with Air-Hole Structures, Haisu Li1, Han Xiao1 and Guobin Ren1; 1Beijing Jiaotong Univ., China. We report two kinds of air-holes assisted elliptical ring core fibers, each of which can support 10 (or even more) distinct polarization- maintaining modes over a broad wavelength range of 1.51–1.63 µm.

M3B.7 • 15:30 Influence of Gamma-ray irradiation on the fluorescence lifetime of Bi/Er co-doped fibers, Lijun Chen1, Jianxiang Wen1, Qian Wang1, Fufei Pang1, Zhenyi Chen1, Yanhua Luo2, Gang-Ding Peng2 and Tingyun Wang1; 1Shanghai Univ., China; 2The Univ. of New South Wales, Australia. We report radiation effect on fluorescence lifetime of the Bi/Er co-doped fiber. For Bi ion, FLT is increased at 0-0.3 kGy, then is decreased at 0.3-3 kGy. However, for Er3+, FLT is decreased always.


M3C.6 • 15:15 Receiver Sensitivity Improvement of Layered-ACO-OFDM System Enabled by Layered-DFT/OCT Precoding Technique, Gang Liu1, Miao Peng1, Cuiwei Liu1, Ming Chen1, Hui Zhou1 and Qinghui Chen2, 1Hunan Normal Univ., China; 2Hunan Univ. of Technology, China. A layered DFT/OCT precoding technique is proposed for the L-ACO-OFDM system to improve receiver sensitivity. The simulations show more than 3-dB receiver sensitivity improvement is achieved at a BER of 1e-3.

M3C.7 • 15:30 Gaussian Wavelet Basis Expansion- Based Phase Noise Suppression Method for CO-OFDM Systems, Yongtao Huang1, Yuanxiang Chen1 and Jianguo Yu1, 1Beijing Univ. of Posts and Telecommunications, China. We propose a novel phase noise suppression method based on Gaussian wavelet basis expansion (GWBE) for CO-OFDM systems. Compared with the orthogonal basis expansion (OBE) scheme, a Q-value improvement of 1 dB is achieved.


M3D.6 • 15:30 Simultaneous Dual Data Stream Trans- mission Using RGB and Phosphor-based White LEDs, Hiromasa Ando1 and Shiro Ryu1, 1Meiji Univ., Japan. Visible light communication system with small intensity noise using an RGB LED by modulating two LEDs by noninverted and inverted data streams simultaneously is proposed. We demonstrated dual data stream transmission using a proposed method.

M3D.7 • 15:45 Analysis of Beam Wander and Pointing Error on Laser Beam Propagation through Atmosphere, Suman Basak1, Syed Azeemuddin1 and Jagannath Nayak2, 1Hyderabad, India; 2Defence Research and Development Organization, India. We have analysed the effect of beam wander, jitter and boresight on the deviation of centroid of laser beam. It is seen to be wandering over a restricted range, though off the center of detector.


M3E.5 • 15:15 Joint Optimization for Combined Jobs Scheduling and Routing in the Edge Computing based EON, Yanan Li1, Jiawei Zhang1, Zhen Liu1 and Yuefeng Ji1; 1BUPT, China. We propose a joint scheduling and routing scheme with combined jobs to maximize throughput under deadline constraint in the edge computing based EON. The results show it achieves increase on network throughput and utilization.

M3E.6 • 15:30 Cost Aware Mobile Edge Computing Hierarchical Deployment in Optical Interconnection Network, Zhen Liu1, Jiawei Zhang1 and Yuefeng Ji1; 1BUPT, China. A mobile edge computing hierarchical deployment optimization strategy is proposed based on optical interconnection network with software defined network. Simulation results show it can reduce total cost, and balance deployment cost and end-to-end delay cost.

M3E.7 • 15:45 Energy Effcient Traffic Flows Migrations in Next Generation Radio and Optical Midhaul Network, Pengfei Zhu1, Jiawei Zhang1 and Yuefeng Ji1; 1Beijing Univ. of Posts and Telecommunications, China. In this paper, we propose an integer linear programming model to reduce power consumption in midhaul by traffic flows migrations. Results demonstrate it can efficiently utilize virtual servers, and reduce the overall power consumption.



Mon

day,

29

Oct

ober



M3F.4 • 15:15 Dark Current Analysis of Mid-Wave Quantum Dots-in-a-Well Photodetectors Monolithically Grown on Silicon Substrate, Wei Chen1, Zhuo Deng1, Jian Huang1, Baile Chen1, Huiyun Liu2 and Jiang Wu3; 1ShanghaiTech Univerisity, China; 2Univ. College London, United Kingdom; 3Univ. College London, China. In this work, we analyzed the dark current performance of the InAs/InGaAs/GaAs quantum dots-in-a-well (DWELL) mid-wave infrared photodetectors monolithically grown on silicon substrate.

M3F.5 • 15:30 1.3 µm whispering gallery modes observed in a Si-based rolled-up InAs/ GaAs bilayer quantum dot (BQD) microtube at room-temperature, Zhaoer Chai1, Qi Wang1, Haiqiao Ni2, Hao Liu1, Jiawei Cao1, Yunxuan Zhu1, Kai Liu1 and Xiaomin Ren1; 1Beijing Univ. of Posts and Telecommunications, China; 2Chinese Academy of Sciences, China. We have observed ~ 1.3 μm whispering gallery modes from a Si-based rolled-up InAs/ GaAs bilayer quantum dot microtube at room temperature. Moreover, an intrinsic Q-factor of ~ 1100 is derived at 230 μW.

M3F.6 • 15:45 CMOS-compatible process of AlGaInP red LEDs on 200 mm Si substrates, Bing Wang1, Yue Wang1, Kwang Hong Lee1, Kenneth Lee1, Eugene Fitzgerald2 and Jurgen Michel2; 1Singapore-MIT Alliance for Research and Technology, Singapore; 2Massachusetts Inst. of Technology, United States. We will present our work on AlGaInP red LEDs epitaxially grown on 200 mm Si substrates. CMOS-compatible metal contacts were developed and characteristics of the devices will be shown.


M3G.4 • 15:30 A Tunable Microwave-Photonic Notch Filter Based On Single Silicon Ring Resonator, Fengjie Zhou1, Xiaowen Gu1, Yuechan Kong1, Bin Niu1 and Guang Qian1, 1Nanjing Electronic Devices Inst., China. A narrowband microwave photonic notch filter (MPNF) based on a thermally tunable single microring resonator has been proposed and demonstrated, which has a high quality factor of 48500 and notch depth larger than 56 dB.

M3G.5 • 15:45 Long-term ultra-stable Brillouin optoelectronic oscillator with a feedback loop, Mengyue Shi1, Lilin Yi1 and Weisheng Hu1, 1Shanghai Jiao Tong Univ., China. A long-term ultra-stable Brillouin optoelectronic oscillator is achieved using a feedback loop. The frequency slow drift of a 5.8 GHz OEO signal due to temperature is suppressed to 5 Hz in 1 h.


M3H.4 • 15:15 L-band passively mode-locked fiber laser based on WS2 saturable absorber, Wenxiong Du1, Heping Li1, Changyong Lan1, Shengnan Shen1, Junwen Li1, Yong Liu1; 1Univ. of Electronic Science and Tech. of China, China. We demonstrate a passively mode-locked erbium-doped fiber ring laser operating in the telecommunication L-band using a CVD-grown monolayer WS2 saturable absorber. This gives 1.19-ps pulses at 1602.2 nm with a 19.03-MHz repetition rate.

M3H.5 • 15:30 SiC/Ge/SiC Superlattice Stabilized Hyb- rid Mode-Locking of Thulium-Doped Fiber Laser, Chih-Hsien Cheng1, Yi-Hsiang Lin1, Gong-Ru Lin1; 1GIPO, Department of Electrical Engineering, National Taiwan Univ. SiC/Ge/SiC superlattice induced saturable absorption and nonlinear polarization rotation hybrid mode-locking of 2-um thilium-doped fiber laser is employed to stabilize subpicosecond pulse with tolerant polarization angle of 15o and broadened spectral linewidth of 4.29 nm.

M3H.6 • 15:45 All-fiber wavelength tunable actively mode-locked Ho-doped fiber laser, Wanzhuo Ma1, Tianshu Wang1, Desheng Zhao1, Runmin Liu1, Furen Wang1, Huilin Jiang1; 1Changchun Univ. of Science and Technology, China. We demonstrate an actively mode-locked Ho-doped fiber laser. Actively mode-locked pulses are obtained with up to 5.039 GHz repetition rate. The shortest pulse width is 31 ps. Wavelength can be tuned from 2037nm to 2050nm.


M3I.4 • 15:15 Topological photonic states in one- dimensional dimerized ultracold atomic chains, Boxiang Wang1 and Changying Zhao1, 1Shanghai Jiao Tong Univ., China. We study the topological optical states in one-dimensional (1D) dimerized ultracold atomic chains, as an extension of the Su-Schrieffer-Heeger (SSH) model. We expect these topological photonic states can provide an efficient interface between light and matter.

M3I.5 • 15:30 Low cost wavelength division multiplexing scheme for copropagation of quantum key distribution and classical optical communication over common optical fiber within metro distance, Qian Yi1, Lin Xiangyu1 and Hu Xiaobao1, 1Zhejiang Quantum Technologies Co., Ltd., China. A WDM scheme of assigning Quantum Key Distribution to C band while assigning data optical communication to O band. The scheme works well with QKD and 10Gbps data communication wavelength multiplexed over metro distance.




Monday, 29 O

ctober


Key to Authors and Presider A

Abedin, Kazi - M3G.2 Adler, Guy - S3H.5 Afraz, Nima - Su1E.2 Ahmed, Tanjila - M3E.1 Aichun, Liu - M1B.2 Aierken, Palidan - Su2A.254 Al Araimi, Mohammed - M3A.5 Albert, Jacques - S4B.6 Alias, Mohd Sharizal - Su2A.252 Alibart, Olivier - M3F.1 Alkhazraji, Emad - Su3G.4,

Su2A.252 Allogba, Stéphanie - S4K.8 Alonso-Ramos, Carlos - Su1F.6,

M1H.4, M3F.1, Su3F.3, Su3F Alvarado, Alex - S3K.5 Alves, Tiago - Su2A.74, Su2A.75 Amar, Djamel - Su3C.7 Amouroux, Marine - Su3K.6, Su3K. An, Shaohua - Su1C.5 An, Yi - Su4A.4 Anada, Tesuo - Su2A.61 Ando, Hiromasa - M3D.6 Andriolli, Nicola - S3J.2, S3K.6 Antonelli, Cristian - Su1E.4,

Su2A.253, Su4C.1, S4D Anuszkiewicz, Alicja - Su3A.2 Arai, Shigehisa - Su1F.1 Asano, Yu - M2E.3 Autere, Anton - Su4J.5 Awaji, Yoshinari - Su1C.1, S3K.4 Azaña, José - S3G.3 Azeemuddin, Syed - Su1H.4,

M3D.7 B

B. Xavier, Guilherme - M2E.1 Ba, Chunfa - Su2A.146 Bai, Bowen - S4F.3 Bai, Chenglin - Su2A.81, Su2A.124,

Su2A.129, M3B.5 Bai, Jurong - Su2A.32 Bai, Wenqi - Su3J.3 Bai, Yuting - Su2A.201 Bai, Zhidong - Su2A.29 Bajoni, Daniele - Su4J.2 Balakier, Katarzyna - Su3G.1, M2G Ballabio, Andrea - Su1F.6 Banakar, Mehdi - Su4J.2 Banchi, Leonardo - M1I.2 Bao, Changjing - Su4F.5 Bao, Hualong - Su2A.209 Bao, Lifeng - Su2A.181 Barat, David – M2J.7 Barry, Liam - Su1G.2

Basak, Suman - M3D.7 Bazin, Alexandre - Su4J.2 Beausoleil, Raymond - M3F.2 Benedikovic, Daniel - M3F.1,

Su3F.3 Berciano, Mathias - Su3F.3 Bernucci, Marcel – S4H.3 Bhatt, Ashish - M1G.4 Bhaumik, Partha - M3E.1 Bi, Meihua - S4C.5, Su2A.65 Bi, Weihong - S4K.2 Bin, Lu - Su2A.39 Binh, Le Nguyen - Su3D.6 Bjornstad, Steinar - Su1E.1 Blaikie, Richard - Su2A.270 Blondel, Walter - Su3K.6, Su3K.3 Bogdanowicz, Robert - S4B.2 Bogoni, Antonella - Su1G.1 Bose, Sanjay - S3E.1 Bose, Sanjay K - Su1J.4 Bose, Sanjay Kumar - Su3E.4 Bouville, David - Su1F.6 Bowen Chen - M2E.5 Bradley, Thomas - Su4A.3 Bradley, Tom - Su4G.3 Brambilla, Gilberto - S4K.5 Bramerie, Laurent - Su1D.6 Braswell, Shaneen - Su4J.1 Brodbeck, Sebastian - S3H.5 Browning, Colm - Su1G.2 Buca, Dan - Su3F.2 Bucci, Ubaldo - Su1E.4 Bucio, Thalia - Su4J.2 Buczynski, Ryszard - Su3A.2, Su1A

C Cai, Shanyong - Su2A.47 Cai, Shunshuo - Su4B.3 Cai, Xiaodong - Su2A.231 Cai, Xinlun - Su2A.118, S3F4,

Su3F.5, Su2A.211, S4J Cai, Yi - Su3D.2 Cai, Yuancheng - Su2A.105, Su1G.3 Can, Wang - Su1K.1 Canning, John - S3A.4, S3A.2 Cao, Chunyan – M1H.2 Cao, Guixing - Su2A.167 Cao, Haotian - S3C.5 Cao, Jianqiu - S4A.6 Cao, Jiawei - M3F.5, Su2A.238 Cao, Jiming - Su1G.5 Cao, Min - Su2A.100, Su1K.3 Cao, Minghua - M3B.5 Cao, Suzhi - Su2A.54 Cao, Zizheng - S4E.2 Carer, Arnaud - Su1D.6

Cartaxo, Adolfo - Su2A.74, Su2A.75 Casey, Shawn - Su3K.4 Cassan, Eric - Su4J.5, M1H.4,

M3F.1, Su3F.3, Su1F Cassioli, Dajana - Su1E.4, Su2A.253 Cen, Zhenhao - M1A.7 Chai, Zhaoer - M3F.5, Su2A.238 Chakravarthi, M. Kalyana - Su1H.4 Chang, Bingdong - Su1F.7 Chang, Mengxu - Su4G.4 Chang, Xiang - Su2A.174 Chaturvedi, Nikita - Su1H.4 Chaudhary, Sushank - Su4D.7,

Su4D.5 Che, Guohang - Su2A.258 Cheben, Pavel - Su4J.2, M3F.1 Chen, Baile - S4J.5, M3F.4, S4K.1,

S4J.6 Chen, bin – Su1K.8, S3K.5,

Su2A.221, Su2A.269 Chen, Bowen - Su2A.93, M2E.6 Chen, Cancan - Su2A.36 Chen, Chun-Ping - Su2A.61 Chen, Chunyi - Su2A.232 Chen, Daigao - Su2A.123 Chen, Daru - Su2A.12, Su3B.4, S3I.3 Chen, Gong - Su2A.139, Su3K.5 Chen, Guangcan - Su2A.103, M1J.5,

Su3G.3 Chen, Guoyao - M1C.1, Su1D.4,

Su4C.5 Chen, Hanning - Su2A.200 Chen, Hao - M3G.3 Chen, Heng - S4A.6 Chen, Hong-Jie - Su2A.94 Chen, Honglan - Su4F.7 Chen, Hongwei - Su2A.71 Chen, Hongzheng - S4I.1 Chen, Huacai - Su2A.161 Chen, Huan - M3C.2 Chen, Huifang - Su2A.140 Chen, Jiajia - M2E.4, Su1E.5, M2E.1,

S3E.2, Su3J Chen, Jian - Su2A.147, Su4D.4,

Su4D.1, Su1C Chen, Jianping - Su1F.1, M2J.1,

M2F.4 Chen, Jijing - Su2A.266, Su2A.198 Chen, Jinbao - S4A.6 Chen, Jing - Su2A.27 Chen, Jingbiao - M2G.3, Su4G.5 Chen, Jingde - Su1I.4 Chen, Jingye - M1F.6 Chen, Junda - M1H.5 Chen, Kai - S3F.3

Chen, Kai Xin - Su4F.9 Chen, Kaixin - M2F.2 Chen, Kevin - Su4B.1 Chen, Kun - Su2A.69 Chen, Lawrence - S3G.2 Chen, Lian-Kuan - Su3D.3 Chen, Lijun - M3B.7 Chen, Lingling - M2H.3 Chen, Meng - Su2A.18 Chen, Ming - M3C.6 Chen, Minghua - Su2A.71 Chen, Minghui - M2B.5 Chen, Ming-Yang - Su2A.28 Chen, Na - Su2A.268, Su2A.207,

Su4B.4 Chen, Nanguang - Su4K.5, S4K.7,

Su2A.124, Su2A.129, S4H.6, S4H.4, M2H.4, Su3K

Chen, Pengxin - Su2A.211 Chen, Qiman - Su1E.5 Chen, Qinghui - M3C.6 Chen, Rui - S4K.7 Chen, Shujing - M3J.3 Chen, Shuyang - Su2A.5 Chen, Si - Su2A.199 Chen, Silin - Su2A.47 Chen, Tao - M2J.5 Chen, Tiantian - Su2A.140 Chen, Wei – M1H.2, M3F.4,

Su2A.104, Su2A.145, S3E.1 Chen, Weijin - Su3H.3 Chen, Xi - Su1C.6, Su2A.125,

Su2A.151 Chen, Xianfeng - S3H.1 Chen, Xiangfei - Su4F.4, M1J.3,

Su2A.240 Chen, Xiaoqi - S3D.2 Chen, Xiaoyong - Su4B.3 Chen, Xin - Su2A.66 Chen, Xinying - M3G.3 Chen, Xue - Su2A.89, Su4E.6,

Su2A.230, M3C.2 Chen, Yang - Su4G.4 Chen, Yao - Su2A.266 Chen, Yaojiang - S4J.5, S4K.1 Chen, Yidong - Su2A.41 Chen, Yidong Chen - Su2A.114 Chen, Yizhao - Su1C.6, Su2A.125 Chen, Yong - Su4A.3, Su4G.3 Chen, Yongxiang - Su1B.8 Chen, Yuanxiang - M3C.7, Su3C.2 Chen, Yu-Hui - Su2A.270 Chen, Yujie - M2J.2, Su4J.4 Chen, Yuntian - Su3H.3

Chen, Zenghui - S4G.6 Chen, Zhangyuan - M2G.3, M1A.3,

Su2A.99, Su4G.5, S3C.5 Chen, Zhe - Su4F.2 Chen, Zhen - Su4B.4 Chen, Zhenyi - M2A.5, Su2A.263,

Su2A.268, M3B.7 Cheng, Chih-Hsien - M3H.5 Cheng, Jiajing - Su4A.5 Cheng, Jiaxi - Su2A.234 Cheng, Peiyun - Su2A.156, Su2A.25 Cheng, Xi - M3A.6 Cheng, Yongzhi - Su2A.265 Cheng, Zhuo - Su4J.6, S4K.5 Chi, Nan - Su4D.3, Su1G.4, Su3D.5,

S4D.2 Chi, Xiaoming - M2I.3 Chi, Yu-Chieh - Su2A.159 Cho, Yun Hyun - Su2A.256 Chong, Shau Poh - S4H.6, S4H.3,

S4H.4 Choudhary, Amol - M3G.1 Chowdhury, Pulak - M3E.1 Chu, Sai Tak - Su2A.209 Chu, Yalei - Su2A.33, Su2A.139 Chu, Yushi - S3A.4, Su2A.135,

Su2A.144 Chu, Zhipeng - Su4F.6 Cincotti, Gabriella - Su2A.208 Clementi, Marco - Su4J.2 Cong, Guangwei - S4F.1 Cong, Hui - M3K.3 Contestabile, Giampiero - S3K.6,

S3J.2 Cook, Kevin - S3A.4, S3A.2 Copper, Andrew - Su2A.209 Costa, Nelson - M1E.2, S4C.1 Crozat, Paul - Su3F.3 Cui, Jingxian - Su1C.6 Cui, Midou - Su2A.23 Cui, Nan - Su2A.44, Su2A.223 Cui, Peng - Su2A.85 Cui, Wenwen - Su1F.5 Cui, Xugao - Su4F.7 Cui, Yiping - M2H.1 Curri, Vittorio - S4C.1

D Da Ros, Francesco - M1C.2 Dagens, Beatrice – M2J.7 Dagens, Béatrice - M1F.4 Dahlsten, Oscar - M3I.2 Dai, Bo - M3J.3 Dai, Daoxin - S4J.3, S4J.4, M2F,

S3K Dai, Gaoyu - S3B.3

Dai, Hang - Su2A.32 Dai, Jian - Su2A.76, S4G.6 Dai, Mingjun - Su2A.269 Dai, Qiao-Feng - Su2A.154,

Su2A.164 Dai, Ruihong - Su2A.200 Dai, Yitang - S4G.3 Damas, Pedro - Su3F.3 Dan, Dan - Su4K.3 Dang, Anhong - Su2A.136, M1C.4 Dang, Bingfeng - Su2A.73 Dang, Shipei - Su4K.3 Das, Goutam - M3E.1 David, John. P. R. - Su4F.8 Davis, Alex - M1I.1 De Carvalho Rodrigues, Eloise -

Su4C.4 Debnath, Kapil - Su4J.2 Debnath, Mukul C. - Su4F.8 Decobert, Jean - Su1F.2 Delconte, Alain - Su3K.6, Su3K.3 Delmade, Amol - Su1G.2 Deng, Degang - Su2A.93 Deng, Hongchang - Su2A.31 Deng, Lei - Su2A.112 Deng, Nan - Su1G.6 Deng, Pengyue - Su2A.246 Deng, Renren - S3I.3 Deng, Shijie - Su2A.31 Deng, Xue - M1D.6 Deng, Yadong - Su2A.12, Su3B.4,

S3I.3 Deng, Ye - Su2A.8, Su2A.158 Deng, Yuxiang - S4A.5 Deng, Zhuo - M3F.4, S4J.6 Descos, Antoine - M3F.2 Diao, Xinglong - Su2A.38 Dias, Imali - S3E.3 Dias, Maluge Pubudini Imali - S4E.3 Ding, Boyang - Su2A.270 Ding, Ding - Su2A.160 Ding, Jianning - S4I.5 Ding, Jifei - Su2A.88, Su4F.1 Ding, Meng - Su4A.3 Ding, Ming - Su1I.5 Ding, Mingjie - Su2A.135 Ding, Shoujun - Su2A.4 Ding, Yi - Su2A.36 Ding, Yihang - Su2A.267 Djordjevic, Ivan - M1E.5 Djordjevic, Ivan B. - Su2A.77 Dobrijevic, Ognjen - Su3J.1 Doddikrinda, Swapna - Su2A.253 Dong, Hongmei - Su2A.72 Dong, Jianji - Su4G.2

Key

to A

utho

rs


Dong, Qifeng - Su2A.216 Dong, Tao - S4C.4 Dong, Xinyong - Su2A.181,

Su2A.197 Dong, Yanhua - M2A.5 Dong, Yi - Su1G.6 Dong, Zhenli - Su2A.130 Dou, Xinyu - Su4C.6 Driesch, Nils von den - Su3F.2 Du, Chunyan - S3C.5 Du, E - S4K.7 Du, Huayang - M2G.3, Su2A.99,

Su4G.5 Du, Jiangbing - Su4F.6, M1C.1,

Su1D.4, Su4C.5. M2C Du, Minling - Su2A.266, Su2A.198 Du, Shengwang - Su4I.1 Du, Tuanjie - Su1B.7 Du, Wenxiong - M3H.4 Du, Yueqing - Su2A.156, Su2A.157,

Su2A.205 Du, Zhe - S3K.8 Duan, Fei - S3F.4 Duan, Guanghua - Su1F.2 Duan, Mengsha - Su2A.17 Duan, Xiaofeng - Su2A.10, Su2A.27,

Su2A.48, Su2A.82, Su2A.91, Su2A.102, Su3G.6, Su2A.218, Su2A.248

Duan, Yubo - M2H.4 Duan, Zheng - M2J.3, M2J.4 Duan, Zhihui - S4B.6, Su2A.138 Duran-Valdeiglesias, Elena - M1H.4 Durán-Valdeiglesias, Elena - M3F.1

E Ecarnot, Aurore - M1F.4 Effenberger, Frank - Su4E.2 Eggleton, Benjamin - M3G.1 Eira, Antonio - M1E.2 El-Badawy, Sayed - Su2A.165 Elbers, Joerg-Peter - M1E.1 El-Sahn, Ziad - Su2A.250 El-Shimmy, Mohamed - Su2A.165 Emmerich, Robert - S4C.1 Eriksson, Tobias A. - Su1C.1 Essiambre, Rene-Jean - S4C.2

F Fan, Desheng - Su2A.144 Fan, Hai Hua - Su2A.154 Fan, Hai-Hua - Su2A.164 Fan, Xinye - Su2A.124, Su2A.129 Fan, Xinyu - S3B.3, S3B.5, S4B.1 Fan, Xiongfei - Su2A.245 Fan, Yuting - S4G.3 Fan, Zhang - Su2A.43

Fang, Fang - M3B.1 Fang, Jiancheng - Su1I.5 Fang, Kaibo - Su2A.18 Fang, Wenjing - Su2A.124,

Su2A.129 Fang, Xi - M3C.3, Su2A.45, Su2A.52,

Su2A.53 Fang, Xiongfeng - M1F.5 Fang, Yuxi - Su4F.5 Fei, Yang - Su2A.39 Feng, Han - Su1A.4 Feng, Junbo - Su2A.23 Feng, Lihui - S4C.3 Feng, Ming - Su1K.4 Feng, Qi - Su3H.5, Su2A.239 Feng, Ting - Su2A.1, Su2A.24,

Su3B.5, Su2A.120 Feng, Wei - Su3K.6 Feng, Xian - Su1A.4 Feng, Xianglian - Su2A.68, Su1D.3 Feng, Xue - S4K.6, S4F.4 Feng, Ye - S4E.3 Fengchan, Zhang - S4B.5 Ferdousi, Sifat - M3E.1 Ferrari, Alessio - S4C.1 Ferreira Da Silva, Thiago - M2E.1 Fice, Martyn - Su3G.1 Finkelstein, Ran - Su3I.1 Fiorentino, Marco - M3F.2 Firstenberg, Ofer - Su3I.1 Fischer, Johannes - S4C.1 Fitzgerald, Eugene - M3F.6 Flanagan, Padraic - S3A.2 Foster, Amy - M1G.1 Fournier, Maryse - Su1F.2 Franczyk, Marcin - Su3A.2 Freire, Maria - Su3C.7, Su4C.4 Frigerio, Jacopo - Su1F.6 Fu, H.Y. - S4K.4, Su1D.1 Fu, Hongyan - M3G.3 Fu, Shenggui - Su2A.29 Fu, Songnian - Su1C.6, Su2A.125,

Su1D.8, M1B.2, Su1B.6, M2E.1 Fu, Xiaodong - Su1J.4, Su3E.4 Fu, Xin - Su2A.106, M1F.5 Fu, Yuanxiu - S3B.5 Furukawa, Hideaki - Su1C.1

G Galib Reza, Ahmed - Su3C.5 Gallet, Antonin - Su1F.2 Galli, Matteo - Su4J.2 Gan, Jiulin - S3K.2 Gan, Lin - Su1D.8, Su1B.6, M2E.1 Gantz, Liron - S3H.5 Gao, Bindong - Su1K.2

Gao, Chao - Su1D.7 Gao, Feng - Su2A.40, Su1B.6 Gao, Guangyu - Su2A Gao, Guanjun - M2D.5, Su2A.246,

Su2A.247 Gao, Hui - Su2A.8, Su2A.158 Gao, Lihang - M2E.6 Gao, Mingyi - Su2A.145, Su2A.150 Gao, Ran - S3K.1 Gao, Shiming - Su2A.68, Su1D.3,

M3G Gao, Tao - M1E.3 Gao, Xia - S3B.4, Su2A.229 Gao, Xiang - Su2A.105, Su1G.3 Gao, Xianwei - M3C.3, Su2A.45 Gao, Xinlu - Su2A.46, Su2A.56,

Su2A.115, Su2A.149 Gao, Yan - Su1K.6 Gao, Yang - Su2A.34 Gao, Yuan - Su2A.13 Gao, Zheng - M3C.1 Gao, Zhengguang - Su2A.21 Gao, Zhuo - Su2A.133 Gardes, Frederic - Su4J.2 Ge, Chunfeng - M3A.8 Ge, Dawei - M1A.3 Ge, Ling - Su4C.3 Ge, Renyou - Su2A.118, S3F.4 Geng, Jian - M3B.3 Geng, Yong - Su1F.5 Gerzaguet, Robin - Su1D.6 Ghassemlooy, Zabih - S4D.3,

M1D.2, Su4D.7 Gillet, Franck - Su4C.4 Gillet, Frank - Su3C.7 Ginger, David - S4I.2, S3I Goddard, Lynford - Su4J.1 Goeger, Gernot - Su3D.6 Gomez-Agis, Fausto - S4E.2 Gong, Huaping - Su2A.236 Gong, Jiaqi - Su2A.169, Su2A.173,

Su2A.176 Gong, Qian - S4J.5 Gong, Shang Qing - Su2A.14 Gongyuan, Zhao - M1J.4 Goto, Yusei - Su1F.3 Gu, Chaochen - Su3K.4 Gu, Fuxing - Su3H.4 Gu, Hongming - Su2A.82,

Su2A.233 Gu, Huaxi - Su2A.38, Su3J.2 Gu, Rentao - M3E.3, Su2A.226 Gu, Xiaodong - Su4F.3 Gu, Xiaorong - Su3H.6 Gu, Xiaowen - S3F.5, M3G.4

Gu, Xiao-Wen - Su2A.243 Gu, Yueqing - M3J.2 Gu, Zhiqun - S4E.5, Su2a.202 Guan, Chunying - Su2A.210 Guan, Heyuan - Su4F.2 Guan, Mingyue - Su1D.1 Guan, Pengyu - S3J.3 Guan, Xinping - Su3K.4 Guang, Jianye - Su2A.148 Guo, Biao - M2A.3 Guo, Bingli - Su1E.3, Su2A.222 Guo, Changjian - M1D.7, M2C.4 Guo, Chao - S3E.1, Su3E.3 Guo, Daqian - S4J.6 Guo, Hongxiang - Su2A.130,

Su2A.171, Su2A.251 Guo, Jian - Su2A.7 Guo, Jin - Su2A.23 Guo, Junfeng - M1E.3 Guo, Lei - Su2A.154, M1C.5, M1E.6,

Su4E.3, S4E.4 Guo, Lu - Su2A.103, M1J.5, Su3G.3 Guo, Mengxue - S4K.2 Guo, Peng - S4C.3 Guo, Qi - Su2A.51 Guo, Renzhong - Su2A.62,

Su2A.131 Guo, Rui - M2G.3, Su2A.99, Su4G.5 Guo, Shijia - M2E.2, Su2A.41,

Su2A.114 Guo, Tuan - Su4B.3, S4B.5,

Su2A.235 Guo, Wei - Su2A.259 Guo, Weihua - M1J.6, M1J.4 Guo, Xi - M1B.3, Su1C.4 Guo, Xin - M3B.2 Guo, Yi - Su2A.189 Guo, Yunyun - Su2A.121 Guo, Yuxiao - M1D.4

H Ha, Yinaer - Su3D.5 Hadam, Birgit - Su3F.2 Hagan, David - Su3H.1, Su4H Haiwen, Cai - Su2A.39 Hajomer, Adnan - S3K.6 Halir, Robert - Su4J.2 Han, Bing - Su2A.26 Han, Caiqin - Su2A.170 Han, Dahai – Su2A.271 Han, Di - Su2A.206 Han, Giwoon - Su4B.2 Han, Huiyun - M3A.4 Han, Jiawei - Su2A.64 Han, Mengxiang - Su2A.247 Han, Mengyao - M1D.4

Han, Peng - Su4K.4 Han, Pengchao - Su4E.3 Han, Xiao - Su2A.77 Han, Ye - M2I.5 Han, Zhice Han - Su2A.111 Hao, Chaojiang - Su2A.84 Hao, Jiaming - Su2A.19 Hao, Ruibin - Su3D.4 Hao, You-Zeng - M1J.1, Su2A.67,

Su3G.5, S3J.4 Hayashi, Neisei - S3B.1 Hayat, Alex - S3H.5 He, Chongjun - Su3H.6 He, Jianhua - Su2A.174 He, Jian-Jun - Su2A.169, Su1F.4,

Su4J.2, S1A He, Jing - Su4D.6 He, Jun - Su3B.3, M1B.4, Su2A.119,

Su2A.155, M1B.1, M3B He, Mingbo - Su3F.5 He, Ping - Su2A.28 He, Pinjing - S4C.3 He, Rongxi - S3E.4 He, Sailing - M1H.4 He, Yang - M2A.2 He, Ying - Su2A.13 He, Yongqi - M1A.3, S3C.5 He, Yu - Su2A.132 He, Yue - Su2A.54 He, Zhixue - Su2A.126, Su2A.179 He, Zuyuan - Su4C.3, M1C.1,

Su1D.4, Su4C.5, S3B.3, S3B.5, Su4B.6, S4B.1, S3B

Heng, Xiaobo - S3K.2 Heo, Hoon - Su2A.256 Hisao, Nakashima - M3D.3 Höfling, Sven - S3H.5 Hong, Xiaobin - Su3D.4, Su2A.171,

S3B.4, Su2A.229, Su1D.7 Hong, Yang - Su3D.3 Horikawa, Tsuyoshi - S4F.1 Hosoya, Gou - Su2A.58 Hou, Dewen - Su2A.227 Hou, Haijing - Su2A.175 Hou, Leyi - Su2A.196 Hou, Maoxiang - M1B.4 Hu, Bo - Su2A.59 Hu, Fan - Su2A.55, Su2A.9 Hu, Hanwen - Su3H.3 Hu, Hao - M2F.5, M1C.2, S3J.3 Hu, Lingna - Su1K.5, M2J.4 Hu, Nan - M2I.3 Hu, Shaohua - Su3D.1 Hu, Weisheng - M3G.5, S4C.5,

M1C.3, Su3E.5, S3K.6

Hu, Xiaolong - M2I.3 Hu, Xiaoyang –M1H.2 Hu, Xuejuan - M2H.3 Hu, Yihong - S3E.5, Su3J.3 Hu, Yingtao - M3F.2 Hu, Zhipeng - Su2A.23 Hua, Bingchang - Su2A.51, Su4E.6 Hua, Zhang - Su1E.6 Huang, Bao - Su3E.5 Huang, Guixing - Su2A.65 Huang, Hao - Su4F.5 Huang, Jian - M3F.4, S4J.6 Huang, Jiantao - Su2A.177 Huang, Jingxin - Su2A.63, Su4H.4,

M2G.4 Huang, Kai - Su1F.7 Huang, Kun - Su1I.1 Huang, Liangjin - S4A.4, Su4A.4 Huang, Lirong - Su2A.88, Su2A.113,

Su2A.146, Su4F.1 Huang, Lu - M2B.1 Huang, Mengxing - Su2A.3 Huang, Qianqian - Su1B.1, M3A.1,

M3A.5, M3A.6, Su1B.3, M3A.2 Huang, Rong - Su4A.5 Huang, Rongle - S4K.4 Huang, Ruifu - Su2A.181 Huang, Shanguo - Su2A.56,

Su2A.83, Su2A.41, Su2A.41, Su2A.115, Su2A.149, Su1E.3, Su2A.222, M1E.3

Huang, Shu-Hong - Su2A.94, M3A.7

Huang, Sijie - Su2A.245 Huang, Sujuan - Su2A.143 Huang, Tianye - S4K.5 Huang, Wenzhu - Su3B.6, Su2A.109,

Su2A.177 Huang, Xiaofeng - Su2A.118 Huang, Xiaohong - Su3J.6 Huang, Xiatao - Su2A.224 Huang, Xingang - Su2A.51 Huang, Xinning - Su3D.1 Huang, Xinxin - Su3H.6 Huang, Yidong - S4K.6, S4F.4 Huang, Yiping - M1A.2 Huang, Yongqing - Su2A.10,

Su2A.27, Su2A.48, Su4J.6, Su2A.8, Su2A.82, Su2A.91, Su2A.102, Su2A.160, Su3G.6, Su3K.5, Su2A.218, Su2A.233, Su2A.242, Su2A.248

Huang, Yongtao - M3C.7, Su3C.2 Huang, Yong-Zhen - M1J.1,

Su2A.67, Su3G.5, S3J.4, Su4J

Key to Authors


Huang, Zhenyu - Su2A.5 Huang, Zhihe - S4A.6 Huang, Zhitong - Su2A.107 Huang, Zhiyuan - Su2A.204 Huang, Zinan - M3A.1 Huang, Ziwen - Su2A.30 Huffaker, Diana L. - Su4F.8 Huijskens, Frans - S4E.2 Huo, Liang - Su1D.8, Su1B.6 Hussein, Amira - Su2A.250

I Ian Walmsley – S1A.1 Ibrahem, Basma - M1F.3 Igarashi, Koji - S4C.6 Ighigeanu, Daniel - Su2A.119 Ikeda, Kazuhiro - S4F.1, M1G.3 Inoue, Takashi - M1G.3, M3H.2 Isella, Giovanni - Su1F.6 Ishii, Kiyo - M1G.3 Ishikawa, Ryo - M1B.6 Islam, Md Arafat - M2J.6

J Jany, Christophe - Su1F.2 Jasion, Gregory - Su4A.3 Ji, Wei – Su3H.2 Ji, Yawei - Su2A.6 Ji, Yuefeng - M3E.2, Su2A.66,

Su2A.107, M3E.3, S4E.5, S3H.4, Su2A.202, M3E.6, M3E.4, Su2A.210, M3E.5, Su4E.5, M3E.7, Su2A.226

Ji, Zhaoyu - S4A.5 Jia, Dongfang - Su2A.101, M3A.8 Jia, Hao - Su2A.106, M1F.5 Jia, Qing - Su2A.109 Jia, Xuguang - S4I.5 Jia, Ziwen - Su2A.29 Jian, Jianan - Su4B.1 Jian, Wei - Su2A.100, Su1K.3 Jiang, Chen - M2B.4 Jiang, Chenxi - Su3H.6 Jiang, Chenying - Su2A.62,

Su2A.131 Jiang, Hao - Su2A.108 Jiang, Hexin - Su2A.68, Su1D.3 Jiang, Huilin - M3H.6 Jiang, Hulin - Su1D.3 Jiang, Jiali - M2A.4 Jiang, Jialin - Su4B.5 Jiang, Jiangli - M1A.6, Su2A.15,

Su1A.3 Jiang, Jun - S4I.5 Jiang, Li - Su2A.161 Jiang, Meili - Su2A.1 Jiang, Ming - S3K.8 Jiang, Mingxuan - S3D.4, Su1D.5 Jiang, Ning - M2D.1, M2D.3, S4E.3

Jiang, Qiao - Su1A.5, M1H.3 Jiang, Tao - M2E.4 Jiang, Weifeng - Su2A.72 Jiang, Xinhong - Su3F.4 Jiang, Xu - Su2A.257, Su2A.258 Jiang, Yali - Su2A.258 Jiang, Yang - Su2A.213 Jiang, Youchao - Su2A.237 Jiang, Ziqi - M1H.5 Jianjun, Yu - Su1K.1 Jiao, Dongdong - M1D.6 Jiao, Guohua - S3H.6 Jiao, Xiangsen - Su2A.57 Jiao, Yuqing - S3J.3 Jie, Shuiping - Su3E.4 Jiejun, Zhao - Su2A.39 Jin, Li - Su2A.23 Jin, Ming - Su2A.191, Su2A.212 Jin, Shangzhong - Su2A.196 Jin, Wei - Su1I.5 Jin, Xianmin - Su1K.7, M1I Jin, Xiaoxi - M3A.3, Su1A.6 Jin, Xin - S3D.2 Jin, Yiting - Su2A.101, M3A.8 Jin, Yongxing - Su2A.236 Jin, Zhi - Su2A.249 Jin, Zhonghe - Su2A.35, M3B.4 Jing, Chenxin - M3C.4 Jing, Feng - M1A.6, Su2A.15,

Su1A.3, M2A.4 Jing, Shipei - Su2A.262 Jing, Zhenguo - S4B.6, Su2A.138,

Su2A.187, Su2A.24 Jingxuan, Song - Su2A.197 Jinno, Masahiko - M2E.3 John E Bowers – S1A.2 Jones, Rasmus - S3K.4 Ju, Cheng - Su2A.51 Ju, Weiguo - Su2A.41, Su1E.3,

Su2A.222 Jun, He - S4B.5 Jung, Yung Hun - Su2A.256 Junpeng, Liang - M3D.3

K Kaihui, Wang - Su1K.1 Kalli, Kyriacos - M3A.1, M1B.6 Kang, Juan - Su2A.196, Su2A.227 Kang, Wen - Su2A.63, Su4H.4,

M2G.4 Kang, Zhe - Su2A.30 Kar, Arunita - Su4J.1 Karpinski, Michal - M1I.1 Kasztelanic, Rafal - Su3A.2 Katsuo Øxenløwe, Leif - S3J.3 Kawasaki, Tomoya - Su2A.128 Kawashima, Hitoshi - S4F.1, M1G.3 Kazdoghli Lagha, Marwa - Su1D.6

Ke, Zhaowei - Su2A.118, S3F.4 Keys, Robert - Su1J.2 Khairallah, Grégoire - Su3K.6,

Su3K.3 Khan, Mohammed Zahed -

Su2A.252 Khan, Mohammed Zahed Mustafa -

Su3G.4 Khandelwal, Arpit - M1G.4 Khokhar, Ali - Su4J.2 Kholiqov, Oybek - Su3K.2 Khorsandi, Bahare - Su1E.1 Kilper, Daniel - Su1J.1 Kim, Daeho - M1D.1 Kim, Geunsoo - M1E.4 Kim, Hoon - M1D.1, Su3C Kim, Jaehoon - M1E.4 Kim, Myungshik - M1I.2 Kishi, Junya - S4D.6 Kislyakov, Ivan - Su4H.5 Kitayama, Ken-Ichi - S3K.7 Klamkin, Jonathan - S4G.2 Ko, Zhen Yu Gordon - S4H.6, S4H.4 Kodama, Takahiro - Su2A.92,

Su2A.96, Su2A.208 Koike, Yasuhiro - S3A.1 Kolthammer, W. Steve - M1I.2 Komatsu, Kosuke - Su2A.58 Kondepu, Koteswararao - Su2A.253 Kondepu, Koteswararo - Su1E.4 Kong, Meimei - M2J.5 Kong, Qian - Su2A.151 Kong, Shumin - Su2A.124 Kong, Weicheng - M1D.6 Kong, Yuechan - S3F.5, M3G.4 Kong, Yue-Chan - Su2A.243 Kong, Yujie - Su2A.152 Konoike, Ryotaro - S4F.1, M1G.3 Koonen, Ton - S4E.2 Koyama, Fumio - Su4F.3 Kubota, Hirokazu - Su2A.128,

Su2A.134, Su2A.192, Su1B.5 Kun, Zhang - M2G.5 Kurczveil, Geza - M3F.2 Kurosu, Takayuki - M1G.3 Kuwaki, Nobuo - Su2A.128

L L., Lembo - Su1G.1 Labonté, Laurent - M3F.1 Lacava, Cosimo - Su4J.2 Lafforgue, Christian - Su3F.3 Lahad, Ohr - Su3I.1 Lai, Jun-Sen – M3I.3 Lai, Weidong - Su2A.1, Su2A.120 Lai, Wenchang - Su1B.4 Lan, Changyong - M3H.4 Landau, Nadav - S3H.5

Lang, Tingting - Su2A.169,

Su2A.173 Lauro, Luigi Di - Su2A.29 Lavery, Domanic - S3K.5 Lavignotte, Antoine - Su3C.7,

Su4C.4 Le Roux, Xavier - Su1F.6, M1H.4,

M3F.1, Su3F.3 Le Taillandier de Gabory,

Emmanuel - Su1C.2 Le, Zichun - M1C.3 Lee, Chun-Sing - S3I.1 Lee, Heeyong - Su4B.2 Lee, Heeyoung - M1B.6, Su1B.2,

S3B.2 Lee, Jae Yoon - Su2A.256 Lee, Kwang Hong - M3F.6 Lei, Ming - Su4K.3 Lei, Mingzheng - Su2A.56,

Su2A.149 Lei, Yanxu - Su2A.214 Lei, Yi - S3K.5 Lei, Yu - M2E.6 Leng, Jinyong - Su4A.4 Lepers, Catherine - Su3C.7, Su4C.4 Leroux, Xavier - Su4J.5, M1F.4 Leroy, Benjamin – M2J.7 Li, Ang - Su2A.187, Su2A.204 Li, Bang - Su2A.6, Su2A.97,

Su2A.110 Li, Baojia - Su3J.4 Li, Bin - Su2A.8 Li, Buhong - Su2A.215 Li, Changqing - Su2A.79 Li, Chao - Su3C.6 Li, Chenxia - Su2A.93 Li, Dandan - Su3J.6 Li, Dan-Ran - Su3B.7 Li, Dehui - Su1I.3 Li, Di - Su2A.112 Li, Fan - M2C.3, Su2A.116,

Su2A.224 Li, Fang - M1B.7, Su2A.86 Li, Feiyan - M2J.5 Li, Feiyu - S3C.4 Li, Feng - M1A.7 Li, Gang - Su2A.7 Li, Gongqing - Su2A.218 Li, Guangkuo - Su2A.178 Li, Guangyuan - S3H.6 Li, Guan-Yu - Su2A.243 Li, Guifang - Su2A.111 Li, Guixin - Su1K.8 Li, Haibo - Su2A.179 Li, Haisu - M3B.6, Su2A.100, Su1K.3 Li, Hanzhao - Su2A.35 Li, Hao - Su2A.140

Li, Heping - M3H.4 Li, Hongbin - M3C.1 Li, Hongpu - M2B.6 Li, Hui - M3E.2, Su2A.57 Li, Hui - Su2A.25 Li, Hui - Su2A.38 Li, Jianfeng - Su4H.1 Li, Jianqiang - S4G.3 Li, Jiaqi - Su2A.26 Li, Jing - Su2A.151 Li, Jingchi - Su1C.5 Li, Jingyu - S3E.4 Li, Jinjian - Su2A.209 Li, Juhao - M1A.3, S3C.5 Li, Jun - Su4A.4, S3E.2 Li, Junhui - Su2A.73 Li, Junwen - M3H.4 Li, Kai - Su2A.216 Li, Lianyan - Su2A.240 Li, Longfei - Su3E.4 Li, Longsheng - S4C.5 Li, Luming - Su2A.62, Su2A.131 Li, Ming - Su2A.7, M1G.2 Li, Mingyu - Su2A.168 Li, Peili - Su2A.116 Li, Peng - S4H.1 Li, Qian - Su1H.3, Su2A.178,

Su2A.234, M1A.7 Li, Qiang - S4K.4 Li, Renjian - M2H.3 Li, Ruijie - Su2A.136 Li, Ruoming - Su1G.5 Li, Shangbin - M3D.1 Li, Shangyuan - S4G.5 Li, Shuang - Su2A.88 Li, Shu-Shen - S3I.2 Li, Si-Ao - Su4F.5 Li, Tiefu - Su3I.2 Li, Wangzhe - Su1G.5 Li, Wansha - Su1K.5 Li, Wei - M3J.3, Su1D.7 Li, Weiguo - Su4D.5 Li, Weiwei - Su1B.7 Li, Weizhong - Su2A.179 Li, Wenjia - Su2A.188 Li, Xiang - S3C.3, Su2A.123,

Su2A.126, Su2A.179, M3D.4 Li, Xiaofei - Su2A.89 Li, Xin - Su1E.3, M1E.3 Li, Xingliang - M3A.4, S3H.3 Li, Xuan - Su2A.22, M2G.5 Li, Xuepeng - M2F.2 Li, Yajie - M2D.2, M2D.5 Li, Yan - M1A.4, Su3D.4, Su2A.185,

Su1D.7 Li, Yanan - M3E.5 Li, Yanchao - M3D.5

Li, Yanhong - Su1B.7 Li, Yao - Su2A.200 Li, Ying - M2J.3, Su1K.5, M2J.4 Li, Yingchun - Su1C.3 Li, Yin-Yin - Su2A.154 Li, Yiran - S3D.2 Li, Yongcheng - Su2A.104, Su1J.4 Li, Yongjiu - Su2A.231 Li, Yu - Su2A.71 Li, Yuan - M1D.3 Li, Yupeng - Su2A.64 Li, Yuwei - M1A.6, Su2A.15, Su1A.3,

M2A.4 Li, Zhaohui - M2C.3, Su3D.1 Li, Zhen - Su2A.255 Li, Zhengxuan - Su1C.3 Li, Zhiwei - Su2A.19, Su2A.231 Li, Zihao - Su2A.101, M3A.8 Li, Ziyang - Su2A.136, M1C.4 Lian Xiang - M2E.5 Lian, Xiaomei - S4I.1 Liang, Anzhong - M3C.1 Liang, Baolai - Su4F.8 Liang, Chaoli - Su2A.184 Liang, Chenyu - Su4C.3 Liang, Dr. - M3F.2 Liang, Fuqiang - Su2A.215 Liang, Jingxi - Su2A.55, Su2A.9 Liang, Qijun - Su2A.182, Su2A.194 Liang, Sheng - Su2A.225 Liang, Xiao - Su3J.6 Liang, Xuetong - Su2A.271 Liang, Yongxin - Su2A.264 Liang, Zhongcheng - M2J.5 Lianglong, Fan - M1B.2 Liao, Changrui - Su3B.3, Su2A.155,

M1B.1 Liao, Feng - Su3H.4 Liao, Jiali - Su2A.34 Liao, R. - M3D.1 Liao, Tao - Su2A.20 Liboiron Ladouceur, Odile - S4K.3 Liboiron-Ladouceur, Odile - Su1F.8,

M2F.1 Lijin, Lian - Su4K.4 Lim, Christina - M1E.6 Lim, Leh Woon - Su4F.8 Lin, Aoxiang - M1A.6, Su2A.15,

Su1A.3, M2A.4 Lin, Bangjiang - S4D.3, M1D.2,

Su4D.7, Su4D.5 Lin, Bin - S3E.4 Lin, Chun - S4D.3, M1D.2, Su4D.7,

Su4D.5 Lin, Gongru - S4D.1 Lin, Gong-Ru - Su2A.159, M3H.5 Lin, Hai - Su4F.2

Key

to A

utho

rs


Lin, Heng - Su2A.20 Lin, Huiying - Su1K.5 Lin, Nan - Su2A.11 Lin, Peng - M1H.5 Lin, Rongping - Su2A.269 Lin, Rui - M2E.4, M2E.1, M3E Lin, Runze - Su4F.7 Lin, Tao - Su2A.16, Su2A.22 Lin, Wei - M3A.7, M2J.2 Lin, Xiaohui - Su2A.7 Lin, Yi - Su2A.35, M3B.4 Lin, Yi-Hsiang - M3H.5 Lin, Zebin - Su2A.114 Lin, Ziqi - M2C.4 Ling, Yonghong - Su2A.88,

Su2A.146, Su4F.1 Ling, Yuanda - M3A.2 Ling, Yun - Su1G.3 Liscidini, Marco - Su4J.2 Little, Brent E. - Su2A.209 Littlejohns, Callum - Su4J.2 Liu, Ang - M2H.3 Liu, Anni - Su2A.76 Liu, Baoying - Su2A.102 Liu, Benlin - Su2A.71 Liu, Bo - Su2A.9, Su2A.127,

Su2A.193, Su1D.4, Su4C.5 Liu, Can - M1J.4 Liu, Chang - Su2A.171 Liu, Changshan - Su2A.18 Liu, Chenxia - Su2A.55, Su2A.9 Liu, Cuiwei - M3C.6 Liu, Dajian - S4J.4 Liu, Deming - Su1C.6, M1B.3,

M1B.5, Su2A.112, Su2A.125, Su1D.8, M2E.1

Liu, En Ji - Su2A.220 Liu, Fang - Su1K.4 Liu, Gang - M3C.6 Liu, Gonghai - M1J.6, M1J.4 Liu, Guo-Dong - Su2A.164 Liu, Hai - Su2A.36 Liu, Hai-Ying - Su2A.154, Su2A.164 Liu, Hao - M3F.5, Su2A.238, S3J.5 Liu, Hong - S3H.4 Liu, Houquan - Su2A.31 Liu, Hu - Su4B.1 Liu, Huan - Su1B.6 Liu, Huanhuan - Su1A.5, M1H.3,

Su2A.268, Su2A.207, Su4A.5, Su4B.4

Liu, Huiyun - M3F.4, S4J.6 Liu, Jianfei - Su2A.219, Su4E.4 Liu, Jie - M1D.7, M2C.4, M1D.6 Liu, Jin - Su2A.19 Liu, Jing - Su2A.241 Liu, Jinrong - Su2A.3

Liu, Kai - Su2A.10, Su2A.207,

Su2A.48, Su2A.8, Su2A.82, M3F.5, Su2A.91, Su2A.102, Su3G.6, Su2A.218, Su2A.238, Su2A.242, S3J.5

Liu, Ke - M2A.2 Liu, Lei - S3K.3, M2C.4 Liu, Lin - M2J.2, Su4J.4 Liu, Lina - M2H.3 Liu, Lingyu - Su2A.66 Liu, Liqiong - Su3D.3 Liu, Lisha - M3A.4 Liu, Liu - Su3F.5, Su2A.211,

Su2A.221 Liu, Liwei - Su4K.2 Liu, Menglin - Su3H.6 Liu, Min - Su2A.147 Liu, Naijin - Su2A.163, Su2A.167,

Su2A.182, Su2A.194 Liu, Qiang - Su2A.148 Liu, Qiankun - Su1F.6 Liu, Ran - Su4F.7 Liu, Rizhao - Su2A.72 Liu, Runmin - M3H.6 Liu, Shifeng - Su2A.195 Liu, Shuang - M1A.6, Su2A.15,

Su1A.3, M2A.4 Liu, Siqi - Su1F.1, Su3J.4 Liu, Siyang - Su2A.219, Su4E.4 Liu, Tao - Su2A.27, Su2A.48,

Su2A.8, Su3G.6, Su2A.214, M1D.6, Su2A.248

Liu, Tongyu - Su2A.255 Liu, Wenbing - Su2A.146, Su4F.1 Liu, Wenquan - S3H.6 Liu, Xiao - Su2A.154 Liu, Xiaofeng – Su4H.3 Liu, Xiaohui - Su2A.7, Su2A.25 Liu, Xiaoyan - Su4F.7 Liu, Xinyu - Su2A.249 Liu, Xuanyi - Su1H.3 Liu, Xuejing - Su1I.5 Liu, Xun - Su2A.95 Liu, Yan - M1D.4 Liu, Yang - M3G.1 Liu, Yange - Su4F.5 Liu, Yan-Yan - Su2A.239 Liu, Yaqiong - S3E.5, Su3J.3 Liu, Yejun - M1E.6, Su4E.3, S4E.4 Liu, Ying - Su2A.170 Liu, Yingjie - Su4F.6 Liu, Yong - M3D.5, Su3J.2, M3H.4 Liu, Youwen - Su3H.6 Liu, Yuan - Su2A.255 Liu, Yuanfan - Su4D.3 Liu, Yue - M3C.1 Liu, Yueying - Su2A.187, Su2A.204

Liu, Yuke - Su2A.235 Liu, Yun - Su2A.148 Liu, Yunqi - M1B.2, M2B.3, M2B.1,

M2B.4, Su3B Liu, Yushen - Su3I.4 Liu, Yuying - Su4E.3 Liu, Zexu - Su2A.176 Liu, Zhangweiyi - Su1G.6 Liu, Zhaoxin - Su2A.181 Liu, Zhen - M3E.6, M3E.5 Liu, Zhi - Su2A.232 Liu, Zichen - Su2A.123 Liu, Ziyu - Su2A.163 Liu, Zuyao - M1B.2, M2B.3 Lo, Ming-Fai - S3I.1 Long, Jinhu - Su2A.13 Lott, James - M1J.2 Lou, Shuqin - Su2A.225 Lu, Bingbing - Su1B.3 Lu, Chunhui - Su3C.6 Lu, Dan - Su2A.103, M1J.5, Su3G.3 Lu, Dunke - Su2A.231 Lu, Hai-Kong - S4B.3 Lu, Huafeng - Su2A.228 Lu, Huihui - Su4F.2, M2F.2 Lu, Huimin - Su2A.5 Lu, Jia - Su2A.219, Su4E.4 Lu, Jiafeng - M1A.5 Lu, Jiao - Su2A.228 Lu, Jingqi - Su2A.98 Lu, Liangjun - Su1F.1, M2J.1, M2F.4 Lu, Ning - S4E.4 Lu, Peng - Su2A.98 Lu, Pengfei - M2A.4 Lu, Qiaoyin - M1J.6, M1J.4 Lu, Qichao - Su2A.6, Su2A.97,

Su2A.110 Lu, Tean - M1B.5 Lu, Wei - Su3J.4, M2E Lü, Wei - Su2A.188 Lu, Yang - Su2A.65, Su2A.184 Lu, Yiqing - M2H.2, Su1H Lu, Yuanfu - S3H.6 Lu, Yueming - Su4D.2, S4D.5 Lu, Yunqing - S4F.9, Su2A.141,

Su2A.153 Lu, Zhenzhong - Su2A.34 Lu, Zuye - Su2A.117, Su2A.240 Luan, Bohan - Su2A.257 Luan, Jing - Su2A.88, Su2A.146,

Su4F.1 Luis, Ruben - S3K.4 Luis, Ruben S. - Su1C.1 Luo, Ai-Ping - Su2A.94, M3A.7 Luo, Binbin - Su2A.228 Luo, Chaoming - Su2A.113 Luo, Deying - S4I.4

Luo, Jie - Su4A.5, M2B.3, Su4A.6,

Su4A.2 Luo, Junwei - Su2A.242 Luo, Jun-Wei - S3I.2 Luo, Ming - S3C.3, Su2A.126,

Su2A.179 Luo, Xiao - Su2A.54 Luo, Yanbin - Su2A.6, Su2A.97,

Su2A.110 Luo, Yanhua - Su2A.119, S3A.4,

Su2A.135, Su2A.144, Su2A.263, M3B.7, S3A.2

Luo, Yingbo - Su2A.86, Su3B.6 Luo, Zhengqian - Su1B.7 Luo, Zhi-Chao - Su2A.94, M3A.7 Lv, Guohui - Su2A.257, Su2A.258 Lv, Jiancheng - S3H.6 Lv, Jing - Su2A.217 Lv, Kailin - Su2A.195 Lv, Lulu - M2E.6 Lv, Yunxin - S4E.3

M M S, Aruna Gandhi - Su1H.3 Ma, H. - M3D.1 Ma, Huilian - Su2A.35, M3B.4 Ma, Jianxin - Su2A.17 Ma, Jie - Su4D.6 Ma, Lin - Su2A.34, Su4B.6 Ma, Lina – M1H.2 Ma, Long - Su2A.25 Ma, Pengfei - Su1B.4 Ma, Rende - Su2A.49 Ma, Rong - Su2A.83 Ma, Rui - Su2A.87, Su2A.262 Ma, Tianyi - M1B.6 Ma, Wanzhuo - M3H.6 Ma, Xiaokai - Su2A.48, Su2A.8,

Su2A.248 Ma, Xiaosong - Su2A.1 Ma, Yaoguang - S3I.5 Ma, Yifei - Su2A.87 Ma, Yuanyuan - Su2A.145,

Su2A.150 Ma, Yufei - Su2A.4, Su2A.13 Maeda, Shota - Su2A.134 Maegami, Yuriko - S4F.1 Magno, Giovanni – M2J.7, M1F.4 Maier, Martin - Su4E.1 Make, Dalila - Su1F.2 Man, Xiangkun - M3E.2 Man, Zhongsheng - Su2A.29 Mansfeld, Sébastien - Su3C.7 Mao, Shaojuan - Su2A.233 Mao, Wenyan - Su2A.247 Mao, Yaya - Su2A.127, Su2A.193 Mao, Zhihong - Su4B.1 Maram, Reza - S3G.3

Marcaud, Guillaume - Su3F.3 Marchal, Frédéric - Su3K.6, Su3K.3 Marotta, Andrea - Su1E.4,

Su2A.253 Marpaung, David - M3G.1 Marris-Morini, Delphine - Su1F.6,

M1H.4, M3F.1, Su3F.3 Maruyama, Ryo - Su2A.128 Masashi, Eguchi - Su2A.61 Mastronardi, Lorenzo - Su4J.2 Matai, R. - Su4A.2 Matsumoto, Keiichi - Su1C.2 Matsutani, Akihiro - Su4F.3 Matsuura, Hiroyuki - S4F.1, M1G.3 Mazeas, Florent - M3F.1 McLaughlin, Robert - S4H.2 Mecozzi, Antonio - Su4C.1 Mei, Chao - Su2A.30, Su2A.262 Mei, Feng - M3I.1 Mekonnen, Ketemaw - S4E.2 Meng, Ce - Su2A.232 Meng, Fei - Su3I.3 Meng, Lingchao - S3C.4 Meng, Linghao - M1A.5 Meng, Ping - S3C.5 Meng, Qingyang - Su2A.26 Meng, Yafei - Su2A.200 Meng, Yuting - S4E.4 Meng, Zhou – M1H.2 Merget, Florian - Su3F.2 Mi, Yuean - Su2A.100, Su1K.3 Miao, Xin - S4C.5 Miao, Yinping - Su2A.201 Michael, Adams - Su2A.249 Michel, Jurgen - M3F.6 Michel, Ohad - Su3I.1 Min, Li - Su2A.113, Su2A.146,

Su4B.3 Ming, Yang - Su3I.4 Mingyi Gao - M2E.5 Mirzaee, Somayeh M.A. - S3I.4 Miyamoto, Yutaka - S3C.2 Miyazaki, Tatsuya - Su2A.92 Miyoshi, Yuji - Su2A.128, Su2A.134,

Su2A.192, Su1B.5 Mizuno, Takayuki - S3C.2 Mizuno, Yosuke - M1B.6, Su1B.2,

Su4B.2, S3B.1, S3B.2 Mokhtar, Amr - Su2A.165 Molina-Fernández, I - Su4J.2 Morandotti, Roberto - Su2A.209 Moreno, Yarien - M1B.5 Mori, Masahiko - S4F.1 Morimoto, Kosuke - Su2A.134 Morioka, Toshio - M1C.2 Moss, Dave J - Su2A.209 Moss, David - M2G.1

Mou, Chengbo - Su1B.1, M3A.1,

M3A.5, M3A.6, Su1B.3, M3A.2, M1B.2, M2B.3

Mu, Hongqian - M1D.4 Mukherjee, Biswanath - M3E.1

N Nakagawa, Keiichi - Su1H.2 Nakamura, Kentaro - M1B.6,

Su1B.2, Su4B.2, S3B.1, S3B.2 Nakata, Shiho - Su2A.134 Namiki, Shu - S4F.1, M1G.3, M3H.2 Nan, Xiaoxue - Su4E.4 Nan, Yinggang - Su4B.3 Napoli, Antonio - S4C.1 Nayak, Jagannath - M3D.7 Neguţ, Daniel - Su2A.119 Neilson, David - S3F.1 Ni, Haiqiao - M3F.5 Ni, Li - M1A.6, Su2A.15, Su1A.3,

M2A.4 Ni, Ming - Su2A.122 Ni, Xiaolong - Su2A.232 Nicolas K. Fontaine - Su4J.3 Ning, Yanong - Su2A.255 Nirmalathas, Ampalavanapillai -

M1E.6 Nishiyama, Nobuhiko - Su1F.3 Niu, Bin - S3F.5, M3G.4, Su2A.243 Niu, Huijuan - Su2A.102, Su2A.124,

Su2A.129 Niu, Sujian - Su2A.254 Niu, Wenqing - Su3D.5 Niu, Yue Ping - Su2A.12 Noda, Kohei - Su4B.2 Numkam Fokoua, Eric - Su4A.3 Numkam-Fokoua, Eric - Su4G.3 Nunzi, Jean-Michel - Su4H.5, S3I.4

O Ohashi, Masaharu - Su2A.128,

Su2A.134, Su2A.192, Su1B.5 Ohlendorf, Simon - Su1D.2 Okano, Makoto - S4F.1 Okonkwo, Chigo - S3K.5 Olivier, Ségolène - Su1F.2 Omote, Kouhei - Su2A.192 Onohara, Kiyoshi - M2C.2 Ortega-Moñux, A - Su4J.2 Oser, Dorian - M3F.1 Ou, Xin - Su1F.7 Oxenløwe, Leif - M1C.2 Oxenløwe, Leif Katsuo - S3G.1 Ozolins, Oskars - M2E.1

P P., Ghelfi - Su1G.1 Pachnicke, Stephan - Su1D.2 Pakarinen, Lasse - Su4J.5 Pan, Haoyuan - M3C.2

Key to Authors


Pan, Jianxing - S4K.5 Pan, Shilong - Su1K.2, Su2A.195, Pan, Wansheng - Su2A.195 Pan, Wei - Su2A.189 Pan, Xiangping - M2A.5 Pan, Yue - Su2A.49 Pan, Zhongqi - Su4F.5 Pang, Fufei - Su1A.5, M2A.5,

Su2A.263, M1H.3, Su2A.268, Su2A.27, Su4A.5, Su4B.4, M1A.5, M2A.2, M3B.7

Pang, Jie - M3D.2 Pang, Ran - M3E.2 Pang, Xiaodan - M2E.1 Pang, Xiaoling - Su1K.7 Panna, Dmitry - S3H.5 Peccianti, Marco - Su2A.209 Pedro, Joao - M1E.2, S4C.1 Pei, Yifei - Su2A.20 Pelusi, Mark - M3H.2, S3H Peng, Fang - Su2A.4 Peng, Feng - S3E.5 Peng, Gang-Ding - Su2A.119,

S3A.4, Su2A.135, Su2A.144, Su2A.263, M3B.7, S3A.2

Peng, Huanfa - M2G.3, Su2A.99, Su4G.5

Peng, Junjie - Su2A.261, Su1C.3 Peng, Kaidong - Su4J.1 Peng, Kun - M1A.6, Su2A.15,

Su1A.3, M2A.4 Peng, Limei - M1E.4 Peng, Mengmeng - Su2A.63,

Su4H.4, M2G.4 Peng, Miao - M3C.6 Peng, Peng - Su4B.4 Peng, Wei - S4B.6, Su2A.138,

Su2A.148, Su2A.187, Su2A.204 Peng, Zhaoqiang - Su4B.1 Peng, Zhenfang - Su2A.4 Peres-Galacho, Diego - Su3F.3 Pérez-Galacho, Diego - M3F.1 Pesic, Jelena - Su3E.2, S3E Petropoulos, Periklis - Su4J.2, S4C Petrovich, Marco - Su4A.3 Petrovich, Marco N. - Su4G.3 Pi, Xiaodong - M1F.1 Pittala, Fabio - Su3D.6 Poem, Eilon - Su3I.1, Su4I Pointurier, Yvan - Su3E.2 Pokharel, Ramesh - M1F.3 Poletti, Francesco - Su4A.3, Su4G.3 Pommarède, Xavier - Su1F.2 Ponnampalam, Lalitha - Su3G.1 Porzi, C. - S3K.6 Pradere, Laetitia – M2J.7 Pravdin, Alexander - Su3K.6

Presi, M. - S3K.6 Priti, Rubana Bahar - Su1F.8 Provost, Jean-Guy - Su1F.2 Pu, Minhao - Su1F.7, M1C.2, S3J.3 Purini, Suresh - Su1H.4 Puttnam, Ben - S3K.4 Puttnam, Benjamin J. - Su1C.1 Pysz, Dariusz - Su3A.2

Q Qi, Baojian - Su2A.112 Qi, Haiyan - Su2A.161 Qi, Hong - M2J.6 Qi, Weijing - M1C.5 Qi, Yue-Feng - Su2A.239 Qian, Guang - S3F.5, M3G.4,

Su2A.243 Qian, Jia - Su4K.3 Qian, Jiaxin - Su2A.216 Qian, Jinwang - Su2A.149 Qian, Zeyuan - Su4F.7 Qiang, Zexuan - Su2A.12, Su3B.4,

S3I.3 Qianwu Zhang - M2E.5 Qiao, Kuangyi - Su2A.174 Qiao, Lijun - S3B.6 Qiao, Yang - S4D.4 Qiao, Yaojun - Su2A.55, Su2A.9,

Su4D.2, S4D.5 Qin, Guanshi - Su1A.1 Qin, Huabao - M1B.3 Qin, Jiarong - Su2A.200 Qin, Peng - Su2A.194 Qin, Xin - Su2A.172 Qinghui, Chen - Su4D.6 Qiu, Bin - Su2A.199 Qiu, Ciyuan - Su2A.132, Su3F.4 Qiu, Huiye - Su2A.216, Su2A.217 Qiu, Jianrong - S4A.3, Su2A.244,

M3B.2, Su3H Qiu, Jifang - Su2A.130, Su3D.4,

Su2A.171 Qiu, Kun - M2D.1, Su2A.105,

Su1G.3, M2D.3, Su2A.122, S4E.3, Su2A.213, Su2A.224, M3D.4

Qiu, Liyuan - Su2A.44 Qiu, Min - Su2A.270 Qiu, Xinjing - Su2A.46 Qiu, Zhiren - Su4J.4 Qu, Junle - Su1H.1, S4H

R Rademacher, Georg - Su1C.1,

S3K.4, Su4C Raffaelli, Carla - Su1E.1 Rahman, B. M. A. - M2F.4 Rahman, Sabidur - M3E.1 Rakotomanga, Prisca - Su3K.6

Ramirez, Joan Manel - Su1F.6 Ramos, Carlos - Su4J.5 Ranaweera, Chathurika - M1E.6 Rao, K. Sarjan - Su1H.4 Rao, Yunjiang - Su2A.59, Su4B.5,

Su1B.8, S4A.2, S3A Rastegarfar, Houman - M1E.5 Ren, Fang - M1A.3 Ren, Guobin - M3B.6, Su2A.100,

Su1K.3 Ren, Hongliang - Su2A.150, M1C.3 Ren, Jianxin - Su2A.9, Su2A.127,

Su2A.193 Ren, Wenhua - Su2A.237 Ren, Xiaomin - S3J.5, Su2A.10,

Su2A.6, Su2A.8, Su2A.27, Su2A.33, Su2A.48, Su2A.82, Su2A.97, Su2A.91, Su2A.102, Su2A.110, Su3G.6, Su2A.218, Su2A.238, Su2A.248, Su4J.6, M2I.1, M3F.5

Ren, Yangyang - Su1K.4 Ren, Yankun - S4A.6 Ren, Yongxiong - Su4F.5 Renaud, Cyril - Su3G.1 Rexford, Jennifer - S3D.2 Rhee, June-Koo Kevin - Su3C.5 Richardson, David - Su4A.3 Richardson, David J. - Su4G.3 Romero Cortés, Luis - S3G.3 Rong, Kezhen - Su2A.140 Rong, Qiangzhou - Su4A.4 Rönn, John - Su4J.5 Rosenkranz, Werner - Su1D.2 Rowley, Maxwell - Su2A.209 Rozhin, Aleksey - M3A.5 Ruan, Anping - Su2A.170 Ruan, Lihua - S4E.3, S3E.3 Ruan, Liming - M2J.6 Ruan, Ziliang - Su3F.5, Su2A.211,

Su2A.221 Ruffini, Marco - Su1E.2, S4E.1 Ruiz-Caridad, Alicia - Su3F.3 Rybak, Leonid - S3H.5 Ryf, Roland - S3C.1 Ryu, Shiro - S4D.6, M3D.6

S Saito, Shin - Su4J.2 Sakaguchi, Takahiro - Su4F.3 Sanadgol Nezami, Mohammadreza

- S4K.3 Sandoghchi, Seyed Reza - Su4A.3 Sang, Xinzhu - Su2A.30, Su2A.262 Santagati, Raffaele –Su4I.4, M3I Säynätjoki, Antti - Su4J.5 Scalart, Pascal - Su1D.6 Schmid, Jens - Su4J.2

Schneider, Christian - S3H.5 Schroeder, Jochen - M2G.2 Seeds, Alwyn - Su3G.1 Seghilani, Mohamed - S3G.3 Semenova, Elizaveta - S3J.3 Senlin, Yan - Su2A.180 Seo, Kangjun - M2I.4 Seok, Tae Joon - S3F.2 Set, Sze - S3B.1 Séve, Emmanuel - Su3E.2 Shalaby, Hossam - M1F.3,

Su2A.165, Su2A.250 Shang, Ce - M3A.4 Shang, Yanling - Su3B.5 Shang, Yawen - Su2A.247 Shang, Yu - Su1E.3, Su2A.222 Shanghong, Zhao - M2G.5 Shao, Qiongchan - Su2A.168 Shao, Sizhu - M1F.5 Shao, Weidong - Su2A.145 Shao, Xuguang - S4K.5 Shao, Yuying - Su4B.4 Sharaf, Mohamed - M1F.3 Sharif Azadeh, Saeed - Su3F.2, M2J Shawky, Eman - Su2A.165 She, Lijuan - Su2A.12, Su3B.4, S3I.3 Shen, Alexandre - Su1F.2 Shen, Bin - Su3F.2 Shen, Changyu - Su2A.169,

Su2A.173, Su2A.176, M2A Shen, Chengrong - Su2A.181 Shen, Gangxiang - Su2A.104,

Su1J.4, S3E.1, Su3E.4, Su3E.3, Su1J

Shen, Haiyan - Su2A.175 Shen, Jianhua - S4D.4 Shen, Lei - Su4A.5, M2B.3, Su4A.6 Shen, Li - Su1D.8, Su1B.6, M2E.1 Shen, Shengnan - M3H.4 Shen, Shikui - M3E.2, Su4A.1 Shen, Shuhao - Su4K.5, S4K.7 Shen, Xiaoqing - Su2A.199 Shen, Xinyu - Su2A.143 Shen, Xueju - Su2A.95 Shen, Yi - Su2A.215 Shen, Yifan - Su2A.246 Shen, Yufei - Su2A.167 Sheng, Jiancheng - Su4F.6 Shi, Fan - M1A.2, M1A.5 Shi, Guiming - Su2A.37 Shi, Jianyang - Su1G.4 Shi, Jindan - Su1A.4 Shi, Jinhui - Su2A.21 Shi, Lun - Su2A.63, Su4H.4, M2G.4 Shi, Mengyue - M3G.5 Shi, Shenghui - Su2A.228 Shi, Suqi - Su2A.203

Shi, Yan - Su2A.272 Shi, Yaocheng - M1F.6, Su1K.6,

M1F.2, M3F Shi, Yihuan - Su2A.188 Shi, Yuechun - Su4F.4 Shi, Zhangxing - M3B.2 Shibahara, Kohki - S3C.2 Shin, Younghoon - S4K.7 Shioji, Motoyuki - Su1B.5 Shokraneh, Farhad - S4K.3 Shou, Guochu - S3E.5, Su3J.3,

Su2A.241 Shtaif, Mark - Su4C.1 Shu, Chester - M2C.1, Su4G Shu, Haowen - Su2A.191, Su2A.212 Shu, Xuewen - Su2A.152, Su2A.156,

Su2A.157, Su2A.205 Shuai, Shaojie - Su2A.169,

Su2A.173, Su2A.176 Shum, Ping - Su4A.6, S4K.5, S2A Shvachkina, Marina - Su3K.6 Simola, Enrico Talamas - Su1F.6 Slavik, Radan - Su4A.3, Su4G.3,

S4G Smietana, Mateusz - Su3B.1, S4A Smith, Brian - M1I.1 So, Peter T. C. - S4K.7 Soeiro, Ricardo - Su2A.74 Song, Dexue - Su4E.5 Song, Feng - Su1K.4 Song, Jiaxin - M3A.3, Su1A.6 Song, Limin - S3H.3 Song, Muping - Su2A.186 Song, Peng - Su2A.187 Song, Qingyang - M1C.5 Song, Song - S4E.4 Song, Wei - Su1A.5, M1H.3,

Su2A.207 Song, Xiaoxiong - S4G.3 Song, Xiyao - Su2A.115 Song, Xuhui - Su2A.160, Su3K.5 Song, Ying - Su2A.84, Su2A.85 Song, Yingxiong - Su1C.3, M3D.4 Song, Zhiqiang - Su2A.7 Sotto, Moïse - Su4J.2 Soussen, Charles - Su3K.6 Sporea, Dan - Su2A.119 Srinivasan, Vivek - S4H.3 Srinivasan, Vivek J. - Su3K.2 Stancălie, Andrei - Su2A.119 Stefaniuk, Tomasz - Su3A.2 Su, Caiyun - M2A.5 Su, Fei - Su4D.2 Su, Gongchao - Su2A.269 Su, Peng - Su2A.28 Su, Rongtao - M3A.3 Su, Xiaolong - M1I.3

Su, Xiaoqiang - M1G.5 Su, Xin - S3I.3 Su, Yikai - Su1C.5, Su4G.1,

Su2A.132, S3F Su, Yuwei - S4C.4 Suda, Satoshi - S4F.1, M1G.3 Sui, Guanghui - Su4A.5 Sumetsky, Michael - Su2A.157 Sun, Bing - M3B.1 Sun, Chunyang - Su2A.214 Sun, Haiyue - Su2A.4 Sun, Lin - M1C.1, Su1D.4, Su4C.5 Sun, Qin - Su1K.8 Sun, Qizhen - M1B.3, M1B.5 Sun, Ruoyu - Su2A.7 Sun, Shihao - M1A.6, Su2A.15,

Su1A.3, M2A.4 Sun, Tengfei - Su2A.98 Sun, Tingting - Su2A.9 Sun, Weibin - Su2A.81 Sun, Wen - Su4A.3 Sun, Xizi - S3B.4, Su2A.229 Sun, Xu - Su2A.101, M3A.8 Sun, Xueyuan - Su4E.6 Sun, Yanling - Su2A.34 Sun, You - Su2A.261 Sun, Youyuan - Su2A.260 Sun, Yuezhen - M1B.5 Sun, Yun - Su2A.249 Sun, Yunxu - Su2A.137 Sun, Zhihui - Su2A.7 Sun, Zhipei - Su4J.5 Sun, Zhiqiang - Su2A.169,

Su2A.173, Su2A.176 Sun, Zhiwen - M1H.5 Sung, Jiun-Yu - S4E.2 Suo, Jidong - Su2A.37 Suo, Zhufeng - M3C.3, Su2A.45 Surampudi, Atchutananda - Su4C.4 Suzhi, Cao - M1D.5 Suzuki, Keijiro - S4F.1, M1G.3 Suzuki, Naoki - M2C.2 Svanberg, Katarina - Su1K.5 Svanberg, Sune - M2J.3, Su1K.5,

M2J.4 Syed, Azeemuddin - M1G.4

T Tafti, Ghazal - S3A.4 Takeshi, Hoshida - M3D.3 Takeshita, Hitoshi - Su1C.2 Tan, Chee Hing - Su4F.8 Tan, Fengze - Su2A.5 Tan, Sisi - S4A.1 Tan, Wei - Su2A.38 Tan, Yan-Jie - Su2A.94, M3A.7 Tan, Zhongwei - Su4A.3 Tang, Jianxin - Su1I.4

Key

to A

utho

rs


Tang, Jie - Su3I.4 Tang, Jun - M1D.3 Tang, Min - Su2A.100, Su1K.3 Tang, Ming - Su1C.6, Su2A.125,

Su1D.8, M2E.4, Su1B.6, M2E.1 Tang, Qiang - M3E.3 Tang, Rui - M3I.3 Tang, Suheng - S4D.4 Tang, Wei - Su2A.224 Tang, Xianfeng - M3C.4, Su2A.206 Tang, Xiaoyan - Su2A.140 Tang, Xuan - S4D.3, M1D.2, Su4D.7,

Su4D.5 Tang, Ying - M1E.3 Tangdiongga, Eduward - S4E.2 Tanzilli, Sébastien - M3F.1 Tao, Guangming - Su3A.1 Tao, Kaichen - Su2A.142 Tao, Lin - M2G.5 Tao, Ying - Su2A.167 Tao, Yuansheng - Su2A.191,

Su2A.212 Teng, Chuanxin - Su2A.31 Theodosiou, Antreas - M3A.1,

M1B.6 Thiel, Valerian - M1I.1 Tian, Bo - Su2A.127, Su2A.167,

Su2A.193 Tian, Feng - Su2A.9 Tian, Jiajun - M3H.3 Tian, Jianguo - Su1K.4 Tian, Lin - M2I.4 Tian, Peixuan - Su2A.21 Tian, Pengfei - Su4F.7 Tian, Qinghua - Su2A.9, Su2A.167 Tian, Sen - Su2A.261 Tian, Xiangling - Su2A.244 Tian, Yuan - S3A.4 Tian, Yulu - M2B.5 Togashi, Ryosuke - Su4F.3 Tong, Limin - M3B.2, S3H.2, Su1K Tong, Tianhao - Su1C.6, Su2A.125 Tong, Weijun - Su1D.8, M2E.1 Tong, Yao - Su2A.13 Tonini, Federico - Su1E.1 Tornatore, Massimo - Su3E.1 Tossoun, Bassem - M3F.2 Tremblay, Christine - S4K.8 Tsesses, Shai - S3H.5 Tsuji, Yasuhide - Su2A.61 Tu, Feng - Su4B.6 Tu, Jiajing - Su2A.5 Tuchin, Valery V. - Su3K.6

U Udalcovs, Aleksejs - M2E.1 Udupa, Aditi - Su4J.1

V Vakarin, Vladyslav - Su1F.6, M3F.1,

Su3F.3 Valcarenghi, Luca - Su1E.4,

Su2A.253 Van Dijk, Frederic - Su3G.1 Van Stryland, Eric - Su3H.1 Veisllari, Raimena - Su1E.1 Verolet, Théo - Su1F.2 Vincent W. S. Chan - SA2.2 Vivien, Laurent - Su1F.6, Su4J.5,

M1H.4, M3F.1, Su3F.3, S3J W

Wada, Naoya - Su1C.1, S3K.4 Wai, P. K. A. - M1A.7 Wan, Hongdan - M1A.1, Su2A.121,

S4A.5, M1A.4, Su2A.266, Su2A.198

Wan, Junnan - Su2A.217 Wan, Luxue - Su2A.49 Wan, Xin - Su2A.121 Wang, Bin - Su2A.187, S3B.5 Wang, Bing - M3F.6 Wang, Bingyuan - Su2A.40 Wang, Boxiang - M3I.4 Wang, Boyang - Su1F.5 Wang, Cen - Su2A.251 Wang, Chang - M1C.1, Su1D.4,

Su4C.5 Wang, Changle - M1B.5 Wang, Chao - M1B.1 Wang, Chaozheng - Su2A.257,

Su2A.258 Wang, Chunguang - Su2A.7 Wang, Dan - M1D.6 Wang, Dongdong - Su2A.230 Wang, Dongning - Su2A.14, S4K Wang, Dongxing - Su2A.55 Wang, Fang - S4B.6, Su2A.138 Wang, Fei - Su2A.63, Su2A.7,

Su4H.4, M2G.4 Wang, Fengqiu - Su2A.200, M3H.1,

M1H Wang, Fu-Li - M1J.1, Su3G.5, S3J.4 Wang, Fumin - Su4D.3 Wang, Furen - M3H.6 Wang, Guangquan - M3E.2 Wang, Guanjun - Su2A.3 Wang, Guodong - Su2A.16,

Su2A.22 Wang, Hailong - Su2A.18 Wang, Haoran - Su2A.36 Wang, Haoyang - Su1D.4, Su4C.5 Wang, Hongxiang - S3H.4 Wang, Huai-Yung - Su2A.159 Wang, Huan - Su2A.103, M1J.5,

Su3G.3

Wang, Huanhuan - Su2A.82,

Su2A.102 Wang, Hui - M2D.1, M2D.3 Wang, Huiying - Su2A.257 Wang, Hushan - M1B.5 Wang, Jiabin - Su2A.148 Wang, Jianhuan - M3K.3 Wang, Jianjun - M1A.6, Su2A.15,

Su1A.3, M2A.4 Wang, Jianping - Su2A.5 Wang, Jianxin - M3C.3, Su2A.45 Wang, Jiayuan - Su4D.4 Wang, Jie - M1A.1 Wang, Jin - S4F.5, Su2A.141,

Su2A.153 Wang, Jinlei - M2J.3, M2J.4 Wang, Jiqiang - Su2A.255 Wang, Jun - Su4J.6, Su4H.5, M3H Wang, Kai - M3C.5, M2D.2,

Su2A.231 Wang, Kaijie - Su1B.7 Wang, Kaimin - Su2A.245 Wang, Ke - Su2A.78 Wang, Kuiru - Su2A.30, Su2A.262 Wang, Lei - Su2A.89, Su4E.6,

Su2A.123, Su3F.1 Wang, Li - M1B.7 Wang, Liang - Su4F.6, M1D.7 Wang, Lin - Su2A.227 Wang, Lingfang - M2F.2 Wang, Lingkang - Su3E.5 Wang, Liqian - Su2A.54, Su2A.89,

Su4E.6, Su2A.174, Su1C.4 Wang, Liqiang - Su2A.23 Wang, Long - S3J.5 Wang, Lu - Su2A.19 Wang, Maochun - M1D.7 Wang, Mengting - Su2A.183 Wang, Min - Su1C.3 Wang, Ming-Jun - Su2A.239 Wang, Mingming - Su2A.1, Su3B.5,

Su2A.120 Wang, Mohan - Su4B.1 Wang, Muguang - M1D.4 Wang, Ning - S4D.4 Wang, Pan - M3B.2 Wang, Peiyuan - Su2A.198 Wang, Peng - Su2A.152 Wang, Pengfei - Su3C.4, Su3C.1 Wang, Qi - M3F.5, Su2A.238, S3J.5 Wang, Qian - Su2A.263, M3B.7 Wang, Qijie - S4J.1 Wang, Qing - Su2A.36 Wang, Rui - M3H.3 Wang, Runhan - Su4A.5 Wang, Sheng - S3B.4, Su2A.229 Wang, Shengqian - M3D.5

Wang, Shiyu - Su2A.272 Wang, Shuai - S3A.4, M3E.3, S4B.1 Wang, Shubo - S4I.5 Wang, Shuo - Su2A.1 Wang, Shutong - Su2A.254 Wang, Siwei - Su2A.151 Wang, Tao - M3A.3, Su1A.6 Wang, Teng - M1A.2 Wang, Tianshu - Su1D.3, M3H.6,

M1H.5 Wang, Tianxing - M3A.5 Wang, Tiejun - Su4A.5 Wang, Ting - M3K.3, Su3H.5, M2I.2,

M2E.6 Wang, Tingyun - Su1A.5, M2A.5,

Su2A.263, M1H.3, Su2A.268, Su2A.207, Su4A.5, Su4B.4, M2A.2, M2B.4, M3B.7

Wang, Wei - Su4J.6, Su2A.259 Wang, Weijie - Su2A.216 Wang, Wenyu - S3A.4 Wang, Wuqu - S4D.4 Wang, Xiao Qian - Su2A.13 Wang, Xiaocheng - Su1G.6 Wang, Xiaodong - Su3D.4 Wang, Xiaolin - S4A.6 Wang, Xiaolong - M1A.6, Su2A.15,

Su1A.3, M2A.4 Wang, Xichen - Su2A.24, Su3B.5 Wang, Xijie - Su2A.65 Wang, Xin - Su4E.5 Wang, Xingjun - Su2A.191,

Su2A.212 Wang, Xinyi - Su1F.1 Wang, Xinyue - Su4A.3 Wang, Xu - Su4G.2 Wang, Xuhua - M3J.3 Wang, Xun - M2J.3 Wang, Yahui - S3B.6 Wang, Yajie - Su4A.4 Wang, Yanan - M3E.3, Su2A.226 Wang, Yang - M3E.3, Su2A.226 Wang, Yan-Tao - Su2A.239 Wang, Ying - Su3B.3, Su2A.155,

Su2A.217 Wang, Yingying - S3A.3 Wang, Yiping - Su3B.3, M1B.4,

Su2A.155, M1B.1 Wang, Yipu - Su3I.2 Wang, Yixuan - Su2A.186 Wang, Yong-Jie - M1B.7 Wang, Yue - M3F.6 Wang, Yuncai - S3B.6 Wang, Yuying - M1A.6 Wang, Zhaohui - Su2A.9 Wang, Zhaojun - Su4K.3 Wang, Zhaoying - M3A.8

Wang, Zhen - S4F.7 Wang, Zhi - Su4F.5 Wang, Zhuyuan - M2H.1, M2H Wang, Zihao - Su2A.226 Wang, Zinan - Su2A.26, Su2A.264,

Su4B.5, Su1B.8, Su4B Wang, Ziyi - S4C.3 Wang, Ziyu - Su4A.3, Su2A.172 Wangüemert-Pérez, J.G. - Su4J.2 Ware, Cédric - Su4C.4 Wei, Da - S3D.2 Wei, Jiang - M2G.5 Wei, Jinlong - Su3D.6 Wei, Qi - Su2A.242 Wei, Qi-Qin - Su2A.166 Wei, Rongfei - Su2A.244 Wei, Shuen - Su2A.144 Wei, Wei - M3B.1, Su1G.6 Wei, Weiqi - M3K.3 Wei, Wenqi - M2I.2 Wei, Yongfeng - Su2A.46 Wei, Yunbing - Su2A.231 Wei, Zhong-Chao - Su2A.154 Wei, Zixian - Su1D.1 Wen, Feng - M2A.3 Wen, Hongqiao - Su4B.1 Wen, Jianxiang - Su2A.119, M2A.5,

Su2A.263, Su2A.268, Su2A.207, M1A.2, M3B.7

Wen, Qiao - Su2A.188 Wen, Xueqin - Su3F.5, Su2A.211,

Su2A.221 Wen, Yuanhui - M2J.2 Wen, Zhou - Su1K.1 Wenbin, Xu - M2I.5 Weng, Hai-Zhong - Su2A.67, S3J.4 Wenjuan, Fan - M1B.2 Wetzel, Benjamin - Su2A.209 Witzens, Jeremy - Su3F.2 Wong, Elaine - S4E.3, M1E.6, S3E.3 Wong, Kenneth Kin-Yip - S4A.1 Wu, Baojian - M2A.3 Wu, Beibei - Su2A.42 Wu, Bing-Bing - M3I.3 Wu, Bo - Su4F.9 Wu, Chuanbin - M3B.4 Wu, Dexin - Su2A.249 Wu, Gang - S4I.1 Wu, Guofeng - Su2A.6 Wu, Han - Su2A.26, Su2A.94,

M3A.7 Wu, Hanshuo - M3A.3, Su1A.6 Wu, Hao - S4J.4 Wu, Jian - M3A.3, Su2A.130,

Su3D.4, Su2A.171, S3C.4, S3B.4, Su2A.229, Su1D.7, S4A.4, Su1A.6, Su2A.251, Su3D

Wu, Jiang - M3F.4, S4J.6 Wu, Jiangchuan - Su4B.6 Wu, Jun - Su4A.6 Wu, Kaijie - Su3K.4 Wu, Ming - S3F.2, Su4F Wu, Nishan - Su2A.190 Wu, Peng - Su3C.3 Wu, Qianchao - M3H.3 Wu, Rui - M3G.3 Wu, Ruihuan - Su2A.9, Su2A.246 Wu, Shaojun - Su2A.174, S3G.4 Wu, Shengbao - Su2A.24 Wu, Wei - Su2A.88, Su2A.146 Wu, Xiang - Su2A.141 Wu, Xiangnong - Su2A.142 Wu, Xiangyu - Su2A.127, Su2A.167,

Su2A.193 Wu, Xiong - M1D.7 Wu, Xujia - Su2A.259 Wu, Ying - Su2A.170, Su2A.186 Wu, Yue - Su4B.5, Su1B.8 Wu, Zhennan - Su2A.191, Su2A.212 Wu, Zhihang - Su1D.3 Wu, Zhongying - S3C.5

X Xi, Lixia - Su2A.44, Su2A.57,

Su2A.79, Su2A.206, Su2A.223 Xi, Peng - Su4K.1 Xia, Le - M3D.4 Xia, Wei - Su2A.199 Xia, Yunjie - Su2A.49 Xiang, Guoyong - M1I.4 Xiang, Jin - Su2A.164 Xiang, Tao - M2I.4 Xiang, Xueshuang - Su2A.182 Xiangyu, Lin – M3I.5 Xiao, Gui - Su2A.119, Su2A.144 Xiao, Han - M3B.6 Xiao, Jing - Su2A.166 Xiao, Jin-Long - M1J.1, Su2A.67,

Su3G.5, S3J.4 Xiao, Rulei - Su4F.4, M1J.3 Xiao, Wen - M2H.3 Xiao, Wufeng - Su4A.5 Xiao, Xi - Su2A.123, Su3F.1 Xiao, Xiaosheng - Su2A.267 Xiao, Xingguo - Su2A.185 Xiao, Yaoqiang - Su4D.6 Xiao, Yike - Su2A.169, Su2A.176 Xiao, Yong - M1D.3 Xiao, Yu - Su2A.107 Xiao, Yuming - M3E.4, Su4E.5 Xiao, Yun-Feng - Su4H.2 Xiao, Zhenzhen - M2D.4 Xiaobao, Hu – M3I.5 Xie, Chenglong - Su2A.61 Xie, Chongjin - S3D.1

Key to Authors


Xie, Mingyang - Su2A.236 Xie, Mutong - Su2A.56, Su2A.115 Xie, Shiyu - Su4F.8 Xie, Wenping - Su4B.3 Xie, Yafeng - Su4H.5 Xin, Hongpeng - S4K.4 Xin, Xiangjun - Su2A.9, Su2A.127,

Su2A.167, Su2A.193, Su2A.245 Xing, Zhikun - M1B.3 Xinhai, Zhang - Su2A.43 Xinying, Li - Su1K.1 Xiong, Anison L. M. - Su4A.2 Xiong, Ji - Su1B.8 Xiong, Xuejun - Su2A.261 Xizhen, Xu - S4B.5 Xu, Ben - Su2A.14, Su2A.196 Xu, Bo - Su2A.105, Su1G.3 Xu, Cheng - Su2A.246, Su2A.247 Xu, Chengcheng - M2B.4 Xu, Dandan - M3H.3 Xu, Enming - Su2A.116 Xu, Fei - S4B.3, Su3B.7, Su4A Xu, Hao - Su2A.19 Xu, Hengying - Su2A.81, Su2A.129 Xu, Ji - Su2A.141, Su2A.153 Xu, Jian - Su2A.20, M2F.4 Xu, Jing - Su3H.3, M3B.1, Su4D Xu, Jingjing - Su2A.229 Xu, Jiong - Su2A.141, Su2A.153 Xu, Ke - Su4F.6, Su1D.4, Su4C.5 Xu, Kehang - M1D.3 Xu, Kun - S4G.3, S4G.6, Su2A.220,

S4C.4 Xu, Lei - Su4A.6, S3D.2 Xu, Meiyong - Su2A.245 Xu, Mengyue - Su3F.5 Xu, Min - Su2A.153 Xu, Ou - S4G.4 Xu, Quan - M1G.5 Xu, Shengyao - Su2A.160, Su3K.5 Xu, Tingting - Su2A.261, Su1C.3 Xu, Wei - S3D.2, M3C Xu, Weihan - M2J.1 Xu, Wen-Cheng - Su2A.94, M3A.7 Xu, Xiaohui - Su3G.6 Xu, Xiaolei - Su2A.175 Xu, Xing - Su2A.127, Su2A.193 Xu, Xizhen - Su3B.3, M1B.1 Xu, Yang - S4F.2, M1A.1, M1A.4 Xu, Yanpeng - Su2A.219 Xu, Yinuo - Su2A.173 Xu, Yirong - S4G.5 Xu, Yongbing - Su2A.200 Xu, Yongchi - M2G.3, Su2A.99,

Su4G.5 Xu, Yongsheng - M2C.4 Xu, Zhengyuan - Su3C.6, M3D.1

Xu, Zuowei - Su2A.152, Su2A.156 Xue, Daojun - Su2A.179 Xue, Jian - M2I.4 Xue, Junli - Su2A.241 Xue, Peng - Su2A.162 Xue, Sun - M1D.5 Xue, Weicheng - M3D.1 Xue, Xiaoxiao - S4G.5 Xue, Ying Hong - Su2A.11 Xuejuan, Hu - Su4K.4 Xun, Meng - Su2A.249

Y Yafei, Wang - Su3J.5 Yam, Vy - M1F.4 Yamamoto, Noritsu - S4F.1 Yamanaka, Kentaro - Su1F.3 Yamashita, Shinji - S3B.1 Yan, Binbin - Su2A.30, Su2A.262,

Su2A.119, Su2A.135, Su2A.144 Yan, Cheng - Su2A.143 Yan, Chunsheng - Su2A.69 Yan, Huan - Su2A.18 Yan, Lianshan - M1D.3, Su2A.189 Yan, Na - Su4E.3 Yan, Shao-Cheng - S4B.3 Yan, Tingting - Su2A.237 Yan, Xiaoqing - Su1K.4 Yan, Xin - Su2A.6, Su2A.97,

Su2A.110 Yan, Yonghu - Su2A.104, Su2A.145,

Su2A.150, S3E.1 Yan, Yujun - Su2A.183 Yan, Zhehao - Su2A.62, Su2A.131 Yan, Zhijun - Su1B.1, M3A.6, M1B.3,

M1B.5, Su1B.3, M3A.2 Yang, Ailin - Su1K.7 Yang, Aiying - S4C.3 Yang, Ao - M1A.2, M2A.2 Yang, Bing - Su1E.5 Yang, Changxi - Su2A.267 Yang, Chao - S3C.3 Yang, Chen - Su1D.8, M2E.1,

Su4J.2 Yang, Chuanchuan - M3C.1,

Su2A.172 Yang, Chunchuan - M2J.2 Yang, Daquan - Su2A.66 Yang, Deren - Su1I.1 Yang, Dujuan - Su2A.137 Yang, Fu - Su2A.230 Yang, Guang - S3J.5 Yang, Guangze - M2D.4 Yang, Haofan - Su3H.3 Yang, Hongyan - Su2A.31 Yang, Hui - Su2A.189 Yang, Jiao - Su4A.6 Yang, Jie - Su1K.4

Yang, Jing - Su2A.181 Yang, Jun - Su2A.21 Yang, Junfeng - Su2A.268,

Su2A.207 Yang, Lan - Su3I.5 Yang, Li - M2B.5 Yang, Lijia - Su4A.4 Yang, Lin - Su2A.106, M1F.5, Su3G Yang, Lingwei - Su1G.6 Yang, Lishan - Su2A.81 Yang, Liwei - Su2A.203 Yang, Mingwei - Su2A.77, M1E.5 Yang, Tao - M3C.2 Yang, Tianle - Su3J.6 Yang, Tianyu - Su2A.5 Yang, Wenming - Su2A.7 Yang, Xiaokun - M2D.2, M2D.5 Yang, Xuelin - S3K.6 Yang, Yanfu - M3H.3 Yang, Yanwei - Su2A.8, Su2A.248 Yang, Yi - Su2A.32, Su2A.133 Yang, Yuanyuan - Su2A.7, Su3B.2 Yang, Yubang - Su2A.14 Yang, Yue-De - M1J.1, Su2A.67,

Su3G.5, S3J.4 Yang, Zeyuan - Su4J.6 Yang, Zhenjun - M3A.4, S3H.3 Yang, Zhenshan - M3B.5 Yang, Zhiqun - Su2A.111 Yang, Zhongmin - S3K.2 Yang, Zijian - Su2A.269 Yangyang, Fan - M3D.3 Yao, Baoli - Su4K.3 Yao, Haifeng - Su2A.232 Yao, Steve - Su3B.5 Yao, Tianfu - S4A.4 Yao, Wen - Su2A.43 Yao, X. Steve - Su2A.1, Su2A.120 Yao, X.Steve - Su2A.24 Yao, Yao - Su1K.2 Yao, Yong - M3H.3 Yasuhiko Arakawa - SA2.1 Yashima, Hiroyuki - Su2A.58 Ye, Jia - Su2A.189 Ye, Long - S4G.6 Ye, Peng - Su2A.21 Ye, Sen - M3B.4 Ye, Tian - Su2A.171 Ye, Tong - Su3E.5 Ye, Yang - Su2A.145, Su2A.150 Ye, Yao - Su2A.112 Yi, Ailun - Su1F.7 Yi, Anlin - M1D.3 Yi, Jiahao - Su2A.131 Yi, Langyu - M2C.4 Yi, Lilin - M3G.5, Su1D Yi, Qian –M3I.5

Yi, Wei - Su2A.223 Yi, Xin - Su4F.8 Yi, Xingwen - Su2A.213, Su2A.224,

Su3D.1, M1C Yin, Feifei - S4G.3 Yin, Haiying - Su4J.6 Yin, Jie - S4C.4 Yin, Shan - Su2A.83, M2E.2,

Su2A.41, Su2A.114, Su1E.3 Yiping, Wang - S4B.5, S4B Yong, You - Su2A.245 Yoshida, Yuki - S3K.7 Yoshitomi, Shoichi - Su1F.3 You, J. Q. - Su3I.2 You, Jingbi - S4I.3 You, Shanhong - M3D.2 You, Tiangui - Su1F.7 You, Xiaodi - Su4D.1 Yu Lei - M2E.5 Yu, Changyuan - Su2A.5, Su4D.1 Yu, Chongxiu - Su2A.30, Su2A.262 Yu, Cunqian - S3E.4 Yu, Fangda - Su2A.162 Yu, Guoqin - Su4B.4 Yu, Jiakai - Su1J.1 Yu, Jianguo - M3C.7, Su3C.2 Yu, Jianhui - Su4F.2 Yu, Jianjun - Su2A.108 Yu, Jiasheng - S4C.5 Yu, Juan - M1A.6, Su1A.3, M2A.4 Yu, Meitong - S3H.4 Yu, Pengfei - Su3C.3 Yu, Ping - Su2A.216, Su2A.217 Yu, Pu - M1C.3 Yu, Qi - Su2A.152, Su2A.157 Yu, Qinghua - Su2A.199 Yu, Ruihua - Su2A.79 Yu, Shaohua - Su3F.1 Yu, Siyuan - M1D.7, M2J.2, Su4J.4 Yu, Song - Su2A.55, Su2A.73,

Su2A.9 Yu, Xiaohui - Su2A.5 Yu, Xiaoshan - Su3J.2 Yu, Xin - Su2A.4, Su2A.13 Yu, Xuechao - S4J.1 Yu, Xuegong - Su1I.1 Yu, Ye - Su1A.5, M1H.3 Yu, Yonglin - S3F.5 Yu, Yu - Su2A.42, S4G.1, M1J Yu, Yueyang - Su2A.52, Su2A.53 Yu, Zexin - Su2A.130 Yu, Zhangwei - Su2A.12, Su3B.4,

S3I.3 Yu, Zhaoxin - Su2A.68 Yu, Zhen Ming - Su2A.220 Yu, Zhenming - Su2A.71 Yuan, Huizhen - Su2A.148

Yuan, Jinhui - Su2A.30, Su2A.262 Yuan, Libo - Su2A.31 Yuan, Linding - S3I.2 Yuan, Shuai - S4C.6 Yuan, Sirui - S4F.4 Yuan, Xiaolong - Su2A.234 Yuan, Xueguang - Su2A.33,

Su2A.139, Su2A.160, Su3K.5 Yuan, Yuan - Su2A.41, Su1E.3,

Su2A.222 Yuan, Zeshi - Su2A.78 Yuan, Zhen - Su3K.1, Su4K Yuang, Ningyi - S4I.5 Yue, Chunyun - Su2A.102,

Su2A.129 Yue, Yang - Su4F.5, Su4C.2, M2D Yumin, Liu - M2I.5 Yung, Man Hong - Su3I.3, M2I Yusufu, Taximaiti - Su2A.254 Yvind, Kresten - M1C.2, S3J.3

Z Zahang, Meiqin - Su2A.3 Zang, Qi - M1D.6 Zang, Zihan - Su1D.1 Zeng, Jie - M1J.3, Su2A.240 Zhang, Jing - Su3I.5 Zeng, Kehong - Su2A.7 Zeng, Kun - Su2A.91 Zeng, Xianglong - Su2A.207,

M1A.2, M1A.5, M2A.2 Zeng, Xiangye - Su2A.219, Su4E.4 Zeng, Yao - Su2A.76 Zhai, Tong - Su2A.62 Zhai, Yumeng - S4F.8 Zhan, Huan - M1A.6, Su2A.15,

Su1A.3, M2A.4 Zhan, Shuang - Su2A.107 Zhan, Yueying - Su2A.54, Su2A.174,

S3G.4 Zhang, Ailun - Su2A.225 Zhang, Andi - Su4J.4 Zhang, Bin - M3K.3, M3B.5 Zhang, Bowen - Su2A.135,

Su2A.144 Zhang, Cheng - M3C.1 Zhang, Chong - M3F.2 Zhang, Chongfu - Su2A.122 Zhang, Conghui - Su2A.46 Zhang, Dan - Su1E.5 Zhang, Dawei - M3J.3 Zhang, Dezhi - S3K.8 Zhang, Di - Su2A.164 Zhang, Dongpeng - M1D.7 Zhang, Fan - S3D.4, Su1D.5, Su3C.4,

Su3C.1, M1D Zhang, Fangzheng - Su1K.2 Zhang, Faxiang - Su2A.25, Su3B.2

Zhang, Geng - M3E.3, Su2A.226 Zhang, Guhong - M3B.4 Zhang, Guoan - M3B.3 Zhang, Guoqiang - Su3I.2 Zhang, Haiguang - Su4D.7, Su4D.5 Zhang, Hai-Yi - M3I.3 Zhang, Hanyu - M2F.4, M2F.5 Zhang, Hao - Su1K.5 Zhang, Haolei - S4A.4 Zhang, Hiaguang - S4D.3, M1D.2 Zhang, Hongqiao - Su3H.6 Zhang, Hongtao - Su2A.265 Zhang, Hongxia - Su3F.4 Zhang, Hu - Su2A.57, Su2A.206 Zhang, Huibin - M2D.5 Zhang, Jianhao - M1H.4 Zhang, Jianjie - Su2A.35 Zhang, Jianjun - M3K.3, Su3H.5,

M2I.2 Zhang, Jiankun - M1C.4 Zhang, Jianli - Su3G.2 Zhang, Jianzhong - S3B.6 Zhang, Jiao - Su2A.108 Zhang, Jiaojiao - M1A.1 Zhang, Jiawei - S4E.5, Su2a.202,

M3E.6, M3E.4, Su2A.210, M3E.5, Su4E.5, M3E.7

Zhang, Jie - Su2A.64, M2D.2, M2D.5, Su2A.246, Su1J.3, Su4E

Zhang, Jin - Su2A.239 Zhang, Jing - Su2A.15, Su2A.213,

Su2A.224, Su3D.1, M3D.4 Zhang, Jingni - Su2A.133 Zhang, Jingzhi - Su2A.214 Zhang, Jinnan - S3C.4 Zhang, Jinping - Su2A.8, Su2A.158 Zhang, Jun - S3K.8, Su2A.236 Zhang, Junfeng - Su2A.150 Zhang, Junjie - Su2A.261, Su2A.147 Zhang, Junwei - M1D.7, M2C.4 Zhang, Junwen - Su1G.4 Zhang, Junyi - S3C.4 Zhang, Junyou - M2J.6 Zhang, Kang - Su1K.4 Zhang, Kun - Su2A.16, Su2A.22 Zhang, Lei - M3C.3, Su2A.45,

Su2A.106, M1F.5, M2B.3, M3C.2, Su4A.6

Zhang, Lijia - Su2A.9, Su2A.127, Su2A.193

Zhang, Lin - Su1B.1, M3A.6, M1B.3, M1B.5, M1A.1, Su4F.5, M3B.1, Su1B.3, M3A.2

Zhang, Long - S4J.3 Zhang, Lu - M1E.3 Zhang, Min - Su2A.271 Zhang, Mingjiang - S3B.6

Key

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Zhang, Minglun - Su2A.260 Zhang, Nan-Nan - Su2A.154 Zhang, Qi - Su2A.9, Su2A.167 Zhang, Qian - S3B.6, Su2A.227 Zhang, Qiang - S3D.3, Su4I.2 Zhang, Qianwu - Su2A.147, M3D.4,

M2E.6 Zhang, Qing - Su2A.251 Zhang, Qingli - Su2A.4 Zhang, Qiong - Su1E.5 Zhang, Qiulin - M2C.1 Zhang, Rongxiang - Su2A.214 Zhang, Sen - S3K.3, M2C.4 Zhang, Shengyu - Su1K.8 Zhang, Shuai - Su2A.218 Zhang, Shumin - M3A.4, S3H.3 Zhang, Shuoshuo - Su2A.29 Zhang, Tian - Su2A.76 Zhang, Tiantian - Su4D.2, S4D.5 Zhang, Tingwei - S4H.3 Zhang, Wang - Su3I.4 Zhang, Wei - S4K.6, Su4I.3, S4F.4 Zhang, Weili - Su2A.59 Zhang, Weiwei - Su4J.5 Zhang, Wen - Su2A.36 Zhang, Wenbo - Su2A.44, Su2A.206,

Su2A.223 Zhang, Wenhao - Su2A.98 Zhang, Wenjia - Su4C.3 Zhang, Wenjie - Su2A.203 Zhang, Wenjing - Su2A.213, Su3D.1 Zhang, Wentao - Su2A.84, Su2A.85,

Su2A.86, Su3B.6, Su2A.87, Su2A.109, Su2A.177

Zhang, Xia - Su2A.6, Su2A.97, Su2A.110, Su2A.129, M3B.5

Zhang, Xian - Su2A.175, Su2A.221 Zhang, Xiang - M1D.6 Zhang, Xiaobei - M2A.1 Zhang, Xiaoguang - Su2A.44,

Su2A.57, M3C.4, Su2A.79, Su2A.206, M3B.5, Su2A.223, M3D

Zhang, Xiaojian - Su3C.3 Zhang, Xiaolei - Su3B.2 Zhang, Xiaoyan - Su4H.5 Zhang, Xiaoyu - Su2A.46 Zhang, Xin - Su2A.142, Su2A.239 Zhang, Xinliang - Su2A.42, Su3H.3,

Su4G.2 Zhang, Xinmeng - M1H.5 Zhang, Xinqian - S4I.1 Zhang, Xuan - Su2A.66 Zhang, Xuejun - S4B.4 Zhang, Xueliang – M1H.2 Zhang, Xulun - Su2A.79 Zhang, Ya - Su2A.104

Zhang, Yan - Su2A.257 Zhang, Yanfeng - M2J.2, Su4J.4,

Su2A.270 Zhang, Yang - S4B.6, Su2A.138,

Su1F.4 Zhang, Yangan - Su2A.139 Zhang, Yang'An - Su2A.33,

Su2A.160, Su3K.5 Zhang, Yao - Su2A.40 Zhang, Yeming - S4A.3 Zhang, Yi - S4I.5 Zhang, Ying - Su2A.127, Su2A.193 Zhang, Yiwen - Su4F.5 Zhang, Yong - Su2A.132 Zhang, Yongjun - M1E.3 Zhang, Yucheng - Su2A.112 Zhang, Yudan - Su2A.266 Zhang, Yuguang - Su2A.123 Zhang, Yunchao - S4F.6 Zhang, Yunrong - Su2A.104 Zhang, Yunshan - Su2A.117,

Su2A.240 Zhang, Zeheng - Su3B.5 Zhang, Zejun - Su2A.61 Zhang, Zhan - Su2A.114 Zhang, Zhenhua - Su2A.18 Zhang, Zhenshan - Su4D.2, S4D.5 Zhang, Zhepeng - Su2A.207 Zhang, Zhiguo - Su2A.51, Su2A.62,

Su2A.89, Su4E.6, Su2A.47, Su2A.131

Zhang, Zhishen - S3K.2 Zhang, Zhuo - Su2A.57 Zhang, Zuxing - Su2A.116, M1A.1,

Su2A.121, S4A.5, M1A.4, M3B.1, Su2A.266, Su2A.198, M3A

Zhao, Anke - M2D.1, M2D.3 Zhao, Changying - M3I.4 Zhao, Cheng - Su2A.45, Su2A.52,

Su2A.53 Zhao, Chunliu - Su2A.196,

Su2A.227, M2B Zhao, Desheng - M3H.6 Zhao, Gongyuan - M1J.6 Zhao, Guangyu - M2J.3, Su1K.5,

M2J.4 Zhao, Hua - M2B.6 Zhao, Jianhui - S4B.3 Zhao, Jianing - Su2A.195 Zhao, Jiaxu - Su2A.232 Zhao, Jing - Su2A.105 Zhao, Jushang - Su2A.258 Zhao, Lei - Su2A.81 Zhao, Lilong - Su2A.9 Zhao, Lingjuan - Su2A.103, M1J.5,

Su3G.3 Zhao, Mingfu - Su2A.228

Zhao, Ming-Jing - Su3I.3 Zhao, Ning - Su2A.132 Zhao, Ningbo - Su2A.111 Zhao, Peng - S4K.6, S4F.4 Zhao, Qiancheng - Su2A.119 Zhao, Qiang - Su2A.163 Zhao, Qingchao - Su2A.25 Zhao, Rui - M2J.5 Zhao, Shanghong - Su2A.16,

Su2A.22 Zhao, Tianyi - Su2A.226 Zhao, Tianyu - Su4K.3 Zhao, Wei Ke - Su4F.9 Zhao, Wenan - Su2A.25 Zhao, Wen-Yu - M3I.3 Zhao, Wu - Su2A.103, M1J.5,

Su3G.3, Su2A.243 Zhao, Xiaoyan - M2D.1, M2D.3 Zhao, Xin - M3I.3 Zhao, Xinyi - M1B.2, M2B.3 Zhao, Xu - Su2A.71 Zhao, Yong - Su4F.4 Zhao, Yongli - M2D.2, M2D.5, M1E Zhao, Yu - Su2A.143, Su2A.227 Zhao, Yuhe - Su4G.2 Zhao, Yunhe - M2B.1 Zheng, Donghao - Su2A.185 Zheng, Haoqiang - Su2A.27 Zheng, Jiajia - M2A.5 Zheng, Jiajin - Su2A.153 Zheng, Jie - Su2A.162 Zheng, Jilin - Su2A.240 Zheng, Li - Su2A.13 Zheng, Lirong - Su4F.7 Zheng, Lulu - M3J.3 Zheng, Peixia - M1G.5 Zheng, Xiaoping - S4G.5 Zheng, Yi - Su1F.7 Zheng, Zhennan - Su2A.56,

Su2A.115, Su2A.149 Zheng, Zibo - Su2A.44, Su2A.79,

Su2A.223 Zhenning, Tao - M3D.3 Zhidan, Ding - Su2A.39 Zhnag, Nan - Su4A.6 Zhong, Dongzhou - M2D.4 Zhong, Qiwen - S3K.3 Zhong, Zhaoxin - Su3E.3 Zhongyuan, Yu - M2I.5 Zhou, Bin - Su2A.7 Zhou, Bingkun - S4G.5 Zhou, Dapeng - S4B.6, Su2A.138,

Su2A.24 Zhou, Fengjie - S3F.5, M3G.4 Zhou, Feng-Jie - Su2A.243 Zhou, Gangqiang - Su1F.1 Zhou, Gendi - Su2A.260

Zhou, Gufan - Su4F.7 Zhou, Hai - Su2A.147 Zhou, Heng - Su1F.5 Zhou, Honghang - Su1D.7 Zhou, Hongyan - Su4A.6 Zhou, Hui - M3C.6 Zhou, Huibin - Su1C.6, Su2A.125 Zhou, Ji - Su4D.2 Zhou, Jiajun - Su1D.8 Zhou, Jiaying - Su3J.2 Zhou, Kaiming - Su1B.1 Zhou, Lei - S4J.2 Zhou, Lidan - M2J.2 Zhou, Linjie - Su1F.1, M2J.1, M2F.4,

M2F.5, M1G Zhou, Muqing - M1A.3 Zhou, Ning - M3B.2 Zhou, Pu - M3A.3, Su1B.4, S4A.4,

Su4A.4, Su1A.6, Su1A.2, M1A Zhou, Renlai - S4K.4 Zhou, Shujin - Su2A.55 Zhou, Ting - Su2A.106 Zhou, Wen - Su2A.108 Zhou, Wenjing - Su2A.213 Zhou, Wenjun - Su3K.2, M1B Zhou, Xiaolin - Su4F.7 Zhou, Xing - Su4K.3 Zhou, Xinxin - Su4F.8 Zhou, Yan - Su2A.12, Su3B.4, S3I.3 Zhou, Yating - M1J.3 Zhou, Yingjun - Su1G.4 Zhou, Yue - S4C.4 Zhou, Yuhang - Su2a.202 Zhou, Zhenlei - S4D.3, M1D.2,

Su4D.7, Su4D.5 Zhou, Zhihua - Su4D.6 Zhou, Zhipeng - Su2A.8 Zhou, Zhiping - S4F.3 Zhou, Zhu - Su4A.3 Zhou, Zigang - Su2A.183 Zhu, Chen - Su2A.170 Zhu, Chengde - Su2A.19 Zhu, Chengliang - M2B.6 Zhu, Cong - Su2A.214 Zhu, Dan - Su3K.6 Zhu, Haiming - M1H.1, M3H Zhu, Han - Su2A.137, M3H.3 Zhu, He - Su2A.56 Zhu, Jia - Su1I.2, Su1I Zhu, Jianxin - Su2A.7 Zhu, Jinlong - Su4J.1 Zhu, Kaixuan - Su2A.14 Zhu, Lei - M2E.6 Zhu, Min - Su1K.8 Zhu, Mingyue - Su2A.105 Zhu, Paikun - S3K.7 Zhu, Pengfei - M3E.7

Zhu, Qingcheng - M2E.6 Zhu, Qingming - Su1C.5 Zhu, Richeng - Su2A.264 Zhu, Rui - S4I.4 Zhu, Shengxiang - Su1J.1 Zhu, Weiji - Su2A.186 Zhu, Wenguo - Su4F.2 Zhu, Wenwu - Su4G.3 Zhu, Xiaojun - M3B.3 Zhu, Yixiao - S3D.4, Su1D.5, Su3C.4,

Su3C.1 Zhu, Yixuan - Su3H.6 Zhu, Yuebing - S3G.4 Zhu, Yuntao - Su2A.211, Su2A.221 Zhu, Yunxuan - M3F.5, Su2A.238 Zhu, Yunzhou - Su2A.133 Zhu, Zheng - Su2A.21 Zhu, Zhiwen - Su2A.222 Zhu, Zihang - Su2A.22, M2G.5 Zhu, Zuqing - Su3J.4, Su3E Zhuang, Shouwang - Su2A.186 Zhuang, Yi - Su2A.272 Zhuo, Zhuang - Su2A.98 Ziang, Zhu - M2I.5 Zichi, Julien - M2I.3 Zitong, Feng - Su2A.39 Zong, Shenfei - M2H.1 Zou, Chuanhang - Su1B.1, M3A.1,

M3A.5, M3A.6, Su1B.3, M3A.2 Zou, Dongdong - M2C.3 Zou, Fang - M1B.2 Zou, Jinhai - Su1B.7 Zou, Jun - Su1F.4 Zou, Kai - M2I.3 Zou, Linjie - Su2A.117 Zou, Peng - Su4D.3 Zou, Xihua - Su2A.189 Zuo, Mingqing - S3C.5 Zuo, Tianjian - S3K.3, M2C.4,

Su3D.6 Zuo, Yong - S3C.4 Zwiller, Val - M2I.3

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