TABLE OF CONTENTS Welcome from the General Chair .................................................................................... 2 Welcome from the Technical Program Committee Chair ............................................... 3 Practical Information ........................................................................................................ 4 IEEE IFCS 2018 Organizing Committee ........................................................................... 6 IEEE IFCS 2018 Technical Program Committee ............................................................. 9 Sponsors ......................................................................................................................... 11 Exhibit Hall ...................................................................................................................... 12 Exhibitors ........................................................................................................................ 13 IEEE IFCS 2018 Awards ................................................................................................. 18 2018 IEEE Joseph F. Keithley Award In Instrumentation and Measurement .............. 19 T-UFFC Special Issue ..................................................................................................... 20 Student Paper Competition............................................................................................ 21 Future Symposia ............................................................................................................ 23 Schedule Overview ......................................................................................................... 24 Tutorial Schedule ........................................................................................................... 26 IEEE Women in Engineering .......................................................................................... 27 Student Events ............................................................................................................... 27 Rump Session: Defining Our Future ............................................................................. 28 Plenary Speakers ........................................................................................................... 29 Tuesday, May 22 Grids ................................................................................................... 32 Wednesday, May 23 Grids ............................................................................................. 39 Wednesday Poster Sessions ......................................................................................... 44 Thursday, May 24 Grids ................................................................................................. 53 Thursday Poster Sessions ............................................................................................. 56 Thursday, May 24 Grids ................................................................................................. 61 Poster Layouts - Wednesday ......................................................................................... 63 Poster Layouts - Thursday ............................................................................................ 64 Resort Floorplan ............................................................................................................. 65

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WELCOME FROM THE GENERAL CHAIR Welcome to the 2018 International Frequency Control Symposium. This year we are introducing a few new ideas to strengthen our community and conference. Our field is built on diverse specialties, from physics, to time transfer, to resonator engineering, and many others as well. This is one of our strengths. It also creates one of our limitations, that we tend to settle into sub-groups, and we don’t maximize our interdependencies. This year we are changing that.

First, we are meeting together away from the big cities and big conference halls in a beautiful location that will keep us close to one another. We will have a chance to mingle and talk among ourselves, and to find opportunities to work across specialties.

Second, we are allocating our mornings to combined sessions. We have scheduled these with the papers we think the various specialties should hear from the others. Is there a talk we should all attend, even if we don’t work in that area? That’s what we will do in the mornings.

Third, we are introducing a Rump session. This is a free-form evening where we will have a chance to talk about ideas we think are important. For starters, we will focus on where our technology should go, and what we should do to improve the conference. But let’s see where the discussion takes us.

And then there is one more thing — we have a fantastic gig planned for dinner at High Camp. From classic to jazz violin, and other things as well. Bring your instrument and join, or just listen and dance. Either way, music and dinner at 8200 feet, with a view over Lake Tahoe, will be a wonderful and memorable evening.

Aaron Partridge IFCS 2018 General Chair

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WELCOME FROM THE TECHNICAL PROGRAM COMMITTEE CHAIR

It is my great pleasure to welcome you to the 72nd annual International Frequency Control Symposium in Lake Tahoe, CA, USA. We have an exciting Technical Program lined up with emphasis on bridging across the various topical areas of the IFCS to unite the community. With the leadership and vision of the General Chair, Aaron Partridge, and myself, the program was assembled through the dedicated efforts of the TPC Vice Chairs and TPC members across 6 topical fields. I’d like to personally thank everyone for their hard work and insight in assembling what we hope to be a dynamic and engaging program. This would of course not be possible without the many high-quality papers submitted to the conference. In fact, we received more submissions than any previous recorded year for a stand-alone IFCS meeting. I extend a hearty thank you to all the authors for their valuable contributions toward lectures, posters, and manuscripts. We have an exceptional selection of Plenary speakers slated for the meeting. On Tuesday, Prof. Richard Muller of the UC Berkeley Physics Department will speak about “The Physics of Time: Why does it flow?” On Wednesday, Prof. Kerry Vahala from Applied Physics at CalTech will discuss “Integrated Optical Time Standards and Frequency Synthesizers.” Finally, on Thursday, Prof. Tom Kenny from Mechanical Engineering at Stanford will give an outlook of “Encapsulated MEMS” resonators and sensors. In addition, the meeting includes 67 contributed talks, 12 invited talks, and 132 posters. This tally includes two single-track sessions, with contributed papers selected from multiple topical groups to form an overarching theme. On Tuesday, this single-track session will focus on GNSS-Degraded Environments. On Wednesday, we will hear about MeerKAT and Components: Big and Small. There is also an additional mixed-track session on Thursday afternoon on Clocks and Signal Processing. Of the 63 papers submitted by students, 24 were selected as finalists for the Student Paper Competition (4 from each topical group). All Best Paper Finalists will present their work on Wednesday in Poster Session I. Based on these presentations and submitted manuscripts, a team of judges will decide on one Best Paper Award for each of the six groups. Awards will be presented during lunch on Thursday. We will also hold a Rump Session on Wednesday evening, with open discussion about how to best position ourselves as a community not only to remain relevant but to stay ahead of the game in critical up-and-coming applications. What are the most important research questions to answer in the 5-year time frame? What key barriers do we face and how do we overcome them? Discussions will be facilitated with plentiful drink and fireside snacks. In addition to the main technical program, we are pleased to offer an outstanding selection of tutorials on Monday, May 21, assembled by Tutorial Chair John Kitching. There will be 12 lecturers sharing their expertise across three topics: Atomic Clocks and Sensors, Oscillators and MEMS, and Timing and Synchronization. We are also fortunate to have 17 exhibitors showcasing an international selection of products, equipment, and services in manufacturing and supplies of frequency control. I look forward to an engaging and inspiring meeting, and hope that our modified platform this year helps us all step out of our comfort zone to broaden our perspective on frequency control. Dana Weinstein 2018 IFCS TPC Chair

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PRACTICAL INFORMATION

Symposium Address 400 Squaw Creek Road, Olympic Valley, CA 96146 Emergency Number Dial 911 from any phone in case of emergency. Symposium Badge The Symposium badge must be worn to all Symposium events. Attendees without a badge may be denied entrance to events. No Recording or Job Posting

Please note that it is Symposium policy that there is to be NO unauthorized digital imaging or recording in any of the Tutorial or Symposium sessions. It is also IEEE policy that there be no job posting, of any kind, at the Symposium or at the Tutorials. Your cooperation is appreciated. Cell Phones

Out of courtesy to speakers and attendees, please turn off cell phones during sessions.

Symposium Proceedings

The Symposium Proceedings will be distributed via email to registered attendees after the Symposium. Speakers’ Breakfasts

Speakers and Session Chairs for the Oral Sessions of the Symposium are required to attend a complimentary Speakers’ Breakfast on the morning of their presentation/session from 7:20 – 8:20 AM in Emigrant Peak. This breakfast is limited to one speaker per presentation. Note that this breakfast is mandatory for speakers. Tutorial Speakers’ Breakfast will be held 7:00 – 8:00 AM in Granite Chief. Symposium Lunches Lunch will be provided for Symposium attendees on Tuesday, Wednesday, and Thursday (and on Monday for Tutorial registrants). Please be sure to have your ticket ready before entering the lunch room. Tutorial Lunch will be in Emigrant Peak, and Symposium Lunch will be in the Pavilion. Exhibitors’ Event

Please join us for the Exhibitors’ Event on Wednesday, May 23, 3:30 – 5:30 PM, in Grand Sierra A & B. The event is included in Symposium registration.

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Symposium Banquet The Symposium Banquet will be hosted on Tuesday, May 22 at High Camp at 7:00 PM. A ticket to the Banquet is included with each full registration. Guest tickets may be purchased at the registration desk. There will be a musical performance by violinist Ivanka Dill, as well as some talented IFCS attendees. There will be buses provided to the aerial tram stop, which will take attendees up to High Camp. These will also be available on the way back to Resort at Squaw Creek. Symposium App

The Whova app provides you with the most comfortable tool for planning your participation at IEEE IFCS 2018. Browse the complete program directly from your phone or tablet and create your very own agenda on the fly. The app is available for iOs, Android, and Blackberry/Windows devices. To download the mobile app, type 'whova' in Google Play, iTunes App Store or the

Windows Phone Store. Internet or mobile data is required to download the app and agenda but is not required to run the app on your device. Whova allows attendees to network, get real-time live event updates, and more. Search “IEEE” to find IEEE IFCS 2018. Internet Internet will be provided in the meeting room space at the Resort. Tipping & Taxes In restaurants, bars, and nightclubs, tip service staff and bartenders 15% to 20% of the check, tip checkroom attendants $1 per garment, and tip valet-parking attendants $1 per vehicle. The sales tax in Olympic Valley is 7.25%. Drinking Laws The legal age for purchase and consumption of alcoholic beverages is 21; proof of age is required and often requested at bars, nightclubs, and restaurants.

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IEEE IFCS 2018 ORGANIZING COMMITTEE

General Chair: Aaron Partridge SiTime ap@sitime.com

Technical Program Chair: Dana Weinstein Purdue University danaw@purdue.edu

Finance Chair: Debra Coler OEWaves debra.coler@oewaves.com

Acadamic Chair: Rob Candler UCLA rcandler@g.ucla.edu

Editorial Chair: Gregory Weaver Johns Hopkins APL gregory.weaver@jhuapl.edu

Tutorial Chair: John Kitching NIST john.kitching@nist.gov

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Awards Chair: James Camparo The Aerospace Corporation james.c.camparo@aero.org

Exhibits Chair: Craig Nelson NIST craig.nelson@nist.gov

Newsletter Director: Sheng-Shian Li National Tsing Hua University ssli@mx.nthu.edu.tw

Publicity Chair: Matteo Rinaldi Northeastern University rinaldi@ece.neu.edu

IFCS WIE Chair: Sarah Bedair US Army Research Laboratory sarah.s.bedair.civ@mail.mil

International Chair: Liang Liu Key Laboratory of Quantum Optics, Chinese Academy of Sciences liang.liu@siom.ac.cn

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Vice President of Frequency Control Elizabeth Donley NIST elizabeth.donley@nist.gov

AdCom Student Representative: Doug Bopp NIST dougbopp@gmail.com

AdCom Student Representative: Ruochen Lu ECE ILLINOIS rlu10@illinois.edu

Conference Management & Exhibits: Conference Catalysts, LLC www.conferencecatalysts.com

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IEEE IFCS 2018 TECHNICAL PROGRAM COMMITTEE

Group 1: Materials, Resonators, & Resonator Circuits

Songbin Gong, Univ. of Illinois, USA Azadeh Ansari, Georgia Tech, USA

Tanay Gosavi, Intel, USA Yoonkee Kim, US Army CERDEC, USA Randy Kubena, HRL Laboratories, USA

Jan H. Kuypers, Qorvo, USA Olivier Le Traon, Onera, France

Sheng-Shian Li, National Tsing Hua Univ., Taiwan Bernd W. Neubig, Adv. Crystal Products, Germany

Dimitri Peroulis, Purdue University, USA Jeffrey Pulskamp, US Army Research Labs, USA

Mina Rais-Zadeh, Univ. of Michigan, USA Alexandre Reinhardt, CEA-LETI, France

Matteo Rinaldi, Northeastern University, USA Dan Stevens, Consultant, USA

Shuji Tanaka, Tohoku University, Japan Max Zeng-Hui Wang, Univ. of Electronic Science and Technology of China, China

Yook-Kong Yong, Rutgers University, USA

Group 2: Oscillators, Synthesizers, Noise, and Circuit Techniques

Craig Nelson, NIST, USA Bichoy Bahr, Kilby Labs, Texas Instruments, USA

Sarah Bedair, US Army Research Labs, USA Michael Driscoll, Consultan, USA

Serge Galliou, FEMTO-ST, France Wan-Thai Hsu, TXC Corporation, Taiwan

Xianhe Huang, Chengdu University, China Olivier Llopis, LAAS, France Markus Lutz, SiTime, USA

Michael Tobar, University of Western Australia, Australia Ajay Poddar, Synergy Microwave Corporation, USA Ulrich Rohde, Synergy Microwave Corporation, USA

Enrico Rubiola, FEMTO-ST, France Kia Hock Tan, Universiti Tunku Abdul Rahman, Malaysia

Michael Underhill, Underhill Research Limited, United Kingdom

Group 3: Microwave Frequency Standards

Francois-Xavier Esnault, CNES, France Eric Burt, JPL, USA

Scott Crane, U.S. Naval Research Laboratory, USA Elizabeth Donley, NIST, USA

Fang Fang, NIM, China David Howe, NIST, USA Filippo Levi, INRIM, Italy Tianchu Li, NIM, China

Liang Liu, Chinese Academy of Sciences, China Robert Lutwak, DARPA, USA

Salvatore Micalizio, INRIM, Italy Gaetano Mileti, Université de Neuchâtel, Switzerland

Bruno Pelle, Muquans, France Robert Tjoelker, JPL, USA

Qinghua Wang, Spectratime, Switzerland

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Group 4: Resonant Sensors and Transducers

Philip Feng, Case Western Reserve University, USA Sunil Bhave, Purdue University, USA Sid Ghosh, MIT Lincoln Labs, USA

Fabien Josse, Marquette University, USA Mauricio Pereira da Cunha, University of Maine, USA

Laura Popa, Analog Devices, USA Nithin Raghunathan, Purdue University, USA

Leonhard Reindl, Uni Freiburg, Germany Ashwin Seshia, University of Cambridge, United Kingdom

Sid Tallur, IIT Mumbai, India Guillermo Villanueva, Ecole Polytechnique Federal de Lausanne, Switzerland

Greg Weaver, Johns Hopkins APL, USA

Group 5: Timekeeping, Time and Frequency Transfer, GNSS and Applications

Stefania Romisch, NIST, USA Miho Fujieda, NICT, Japan

Marina Gertsvolf, NRC, Canada Per Olof Hedekvist, SP, Sweden

Shinn-Yan Lin (Calvin), TW, Taiwan Bijunath Patla, NIST, USA

Amitava Sengupta, NPL, India Wolfgang Schaefer, Timetech, Germany

Pierre Ulrich, OBSPM, France Aimin Zhang, NIM, China

Group 6: Optical Frequency Standards & Applications

Dave Leibrandt, NIST, USA

James Chou, NIST, USA Pierre Dube, NRC, Canada Tetsuya Ido, NICT, Japan

Rodolphe Le Targat, SYRTE, France Steve Lecomte, CSEM, Switzerland

Andrew Ludlow, NIST, USA Andre Luiten, Univ. of Adelaide, Australia

Long-Sheng Ma, East China Normal University, China Franklyn Quinlan, NIST, USA

Marianna Safronova, Univ. of Delaware, USA Masami Yasuda, NMIJ, Japan

Lin Yi, JPL, USA Nan Yu, JPL, USA

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SPECIAL THANKS The 2018 IEEE International Frequency Control Symposium is possible with support from:

SPONSORS

SILVER SPONSOR

COFFEE BREAK SPONSOR

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EXHIBIT HALL

The Exhibit Hall is in Grand Sierra AB. Exhibition hours are as follows:

Tuesday, May 22 9:30 AM – 11:40 AM, 1:00 PM – 5:30 PM

Wednesday, May 23

9:30 AM – 11:40 AM, 1:00 PM – 5:30 PM Exhibitor Event: 3:30 PM – 5:30 PM

Thursday, May 24

9:00 AM – 11:40 AM

1. NoiseXT 2. Spectradynamics, Inc. 3. IMRA America, Inc. 4. Stable Laser Systems 5. Frequency Electronics Inc. 6 Rohde & Schwarz 7. Vescent Photonics 8. Carmel Instruments 9. Laser Quantum, Inc.

10. Microsemi Corporation 11. Syrlinks 12. Holzworth Instrumentation Inc. 13. Saunders and Associates 14. Menlo Systems 15. Berkeley Nucleonics 16. GuideTech 17. TOPTICA Photonics Inc.

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EXHIBITORS

Berkeley Nucleonics Corporation (BNC) Booth 15 Berkeley Nucleonics Corporation (BNC) is a leading manufacturer of precision electronic instrumentation for test, measurement, and nuclear research. BNC has its corporate headquarters in San Rafael, California with additional manufacturing facilities and sales offices located throughout the United States and Europe. Founded in 1963, BNC is a recognized leader in the field of microwave & RF signal generators and analyzers, programmable synthesizer modules, and dedicated phase noise test systems for ATE, lab, or field use. Website: https://www.berkeleynucleonics.com/

Carmel Instruments Booth 8 Carmel Instruments, LLC is a leading manufacturer of precision time and frequency measurement instruments for research and automated test applications. Carmel's products are in use worldwide by major research laboratories such as NIST, Jet Propulsion Lab and the US Naval Observatory, by semiconductor manufacturers for production testing of millions of devices on a 24 hour basis, and others. Website: http://www.carmelinst.com/

Frequency Electronics, Inc. Booth 5

Frequency Electronics, Inc. (FEI) is a world leader in precision time and frequency generation technology, which is employed in commercial and Government Satellite Payloads

systems, Secure Communications, C4ISR (Command, Control, Communications, Computers, Intelligence, Surveillance, and Reconnaissance), and EW (Electronic Warfare) systems. Its technology is used for a wide range of terrestrial and space applications. Website: http://freqelec.com/

GuideTech Booth 16 GuideTech provides the best value for our customers by creating critical solutions for the semiconductor manufacturing and ATE industries through the novel exploitation of leading technologies. The greatest return for our stakeholders is achieved through market-driven quality processes and investment in our key resources, the employees. Website: http://www.guidetech.com/

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Holzworth Instrumentation Booth 12 Holzworth Instrumentation is a global provider of Real Time Phase Noise Analyzers and broadband RF Synthesis products that exhibit industry leading performance and high reliability. Based in Boulder Colorado, Holzworth designs and manufactures real time cross correlation analyzers with NIST traceable accuracy down to 0.1Hz offsets. Holzworth's broadband RF sources offer incredible spectral purity with unparalleled channel-to-channel phase coherency. Holzworth products not only offer levels of performance that are imperative for R&D applications, but have also been integrated into automated test systems and OEM applications since 2004. Website: http://www.holzworth.com/

IMRA America, Inc. Booth 3 IMRA America, Inc. is the most experienced femtosecond fiber laser company, providing compact, reliable products since 1990. IMRA’s pioneering technologies, rigorous quality control, and high volume manufacturing operation make our lasers the sound choice for scientific, OEM and industrial use. All Erbium optical frequency comb platform can provide fiber-coupled output and comes fully rack-mounted for ease of use. Website: http://www.imra.com/

Laser Quantum Booth 9 Laser Quantum is a world-class manufacturer of high quality solid-state and ultrafast laser sources. Our products are known for their reliability, compactness, performance-excellence and long operational lifetimes. You will find our products, with their patented technology, in laboratories and integrated into systems and machines worldwide, for numerous applications. Meeting the needs of each application is essential in the research and design to achieve exceptional lasers. Website: https://www.laserquantum.com/

Menlo Systems Booth 14 Menlo Systems, the market leader in the field of high-precision measurement technology is widely known for the Nobel Prize winning frequency comb technology. Besides frequency comb products, Menlo Systems specializes in ultrafast lasers for numerous applications including material processing, synchronization and timing as well as in terahertz systems for material research and quality control. Website: http://www.menlosystems.com/

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Microsemi Corporation Booth 10 Microsemi Corporation offers a comprehensive portfolio of semiconductor and system solutions for aerospace & defense, communications, data center and industrial markets. Products include high-performance and radiation-hardened analog mixed-signal integrated circuits, FPGAs, SoCs and ASICs; power management products; timing and synchronization devices and precise time solutions, setting the world’s standard for time; voice processing devices; RF solutions; discrete components; enterprise storage and communication solutions, security technologies and scalable anti-tamper products; Ethernet solutions; Power-over-Ethernet ICs and midspans; as well as custom design capabilities and services. Website: https://www.microsemi.com/

Noise XT Booth 1 Noise XT is an RF & Microwave Test & Measurement entity of Spherea providing high spectral purity signal generators and analyzers solutions located in Elancourt, France. Strong of more than 20 years of continuous innovation in ultra-low phase noise synthesis and State of the Art measurement instruments, Noise XT enables worldwide customers to access technical leadership in their own markets. Up to 140 GHz ultra-broadband solutions covers from low jitter clocks and atomic frequency standards to airborne and space based Radar and wireless or fiber data communication. Noise XT is primarily focused on its customers’ ambitions combined with its unique know-how creating a technical gem at the service of the industry. Website: http://noisext.com/

Rohde & Schwarz Booth 6 Rohde & Schwarz develops, produces and markets test & measurement, information and communications technology. It focuses on test and measurement, broadcast and media, cybersecurity, secure communications and monitoring and network testing, areas that address many different industry and government-sector market segments. Specifically: test and measurement for the wireless market, automotive industry, aerospace and defense, industrial electronics and research and education, broadcast and media for network operators, consumer electronics manufacturers and content providers, cybersecurity solutions for business and government authorities, communications and security solutions for critical infrastructures, reconnaissance equipment for homeland and external security, communications and reconnaissance equipment for armed forces. Website: https://www.rohde-schwarz.com

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Saunders & Associates Booth 13 The Industry leader in Frequency Adjustment, Measurement and Test of Frequency Control Devices. Supporting manufacturers for over 45 Years. Website: https://www.saunders-assoc.com/

SpectraDynamics, Inc. Booth 2 SpectraDynamics, Inc. is a Colorado, USA-based Company, founded in 1994, specializing in high performance time and frequency distribution systems. In association with the National Institute of Standards and Technology, SpectraDynamics participates in the research and development of technology to provide the low noise electronics needed to support atomic time and frequency standards. This experience is leveraged to develop novel frequency synthesis architectures and time and frequency measurement methods. Website: http://www.spectradynamics.com/

Stable Laser Systems Booth 4 Stable Laser Systems is the premier provider of laser frequency stabilization hardware, systems, and accessories. Our expertise is the production and dissemination of Hz-level linewidths and low frequency drift. Our mounting and temperature control of high-finesse Fabry-Perot cavities provides high-performance, off-the-shelf solutions that can save hundreds of hours in the design and setup of narrow frequency and low-drift laser systems. Drawing on decades of combined expertise and research in laser frequency stabilization, we can assist you in choosing and characterizing the right cavity, provide you with an optimized mount and vacuum housing (including customized temperature controllers), as well as fiber-to-cavity coupling optics and associated electronics and services. We partner with the best coating houses to deliver appropriately matched housings for world-class cavities. We also offer turnkey frequency stabilized laser systems based on high quality lasers, both at standard wavelengths and customized to your application. Our complete systems reliably deliver exceptional performance without compromising ease of use. Whether you need 1 Hz linewidth in the laboratory, or 1 kHz in the field, we can help you get there (and stay there) quickly. Website: http://www.stablelasers.com/

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Syrlinks Booth 11 Syrlinks is an advanced designer and manufacturer of low power and high reliability radio-communication products for Space, Defense & Safety applications. From the early stages, the Company has focused its design efforts toward miniaturization and very low power consumption OCXOs. Today, Syrlinks is offering the best physical trade-off between power consumption and frequency stability. This is making the EWOS© product range the best choice for all demanding embedded and battery powered applications. EWOS© are providing 10-7 and 10-8 stabilities in compact and hermetical packages with sub-100mW power consumption. Syrlinks legacy is supported by the reliability of its products that cumulate more than 200 years operation in orbit such as Earth Observatory or Scientific Space missions including ROSETTA with CNES/ESA or DEEP-IMPACT with NASA. Website: http://www.syrlinks.com/

TOPTICA Photonics Booth 17 TOPTICA is a privately held technology driven company, which develops, produces and sells diode and ultrafast fiber lasers for scientific and industrial applications. The company sets its own challenge to regularly present exciting product innovations and world firsts. Website: https://www.toptica.com/

Vescent Photonics Booth 7 Vescent Photonics, LLC a privately held company, was founded in 2002 to develop and manufacture technologies in waveguide, electro-optics, tunable lasers, and electronics for precision laser control. Our patented evanescently coupled liquid crystal waveguides have the industry’s largest tunable optical phase delay enabling wide angle, high-resolution 2-D beam steering. Staff experience as researchers at the University of Colorado (JILA) and NIST has allowed us to become a leader in non-mechanical, tunable lasers for spectroscopic sensing in emerging cold atom applications, fully supported with an accompaniment of ultra-low noise electronics for precision laser control and stabilization. The company is wholly owned by the original founders, all of whom have a scientific and/or engineering background as well as extensive business training. Website: http://www.vescent.com/

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IEEE IFCS 2018 AWARDS The 2018 C.B. Sawyer Award

Franklin Ascarrunz, SpectraDynamics, Inc., USA "For a career of continued excellence providing the time and frequency community with state of the art electronics having ever lower noise figures and increased performance."

The 2018 W.G. Cady Award

Enrico Rubiola, CNRS FEMTO-ST, France "For ground-breaking contributions to noise analysis and signal-source theory, and experimental achievements in the electronic and photonic domains."

The 2018 I.I. Rabi Award

Jun Ye, JILA, USA “For the development of stable, reproducible, and accurate atomic clocks based on optical lattices, and the use of those clocks to probe fundamental atomic interactions and quantum many-body systems.”

IFCS-EFTF 2019 Award Nominations Nominations are now open for the 2019 IFCS Awards. Nominations should be sent to the IFCS Awards Chairs at james.c.camparo@aero.org or Pierre.Waller@esa.int.

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2018 IEEE JOSEPH F. KEITHLEY AWARD IN INSTRUMENTATION AND MEASUREMENT

Sponsored by Keithley Instruments, a Tektronix company, and the IEEE Instrumentation

and Measurement Society

Wednesday, May 23 8:20 AM

Alpine AB

DAVID W. ALLAN

“For leadership in time determination and precise timing instruments.”

Keeping time, or more precisely, keeping accurate time, has been the focus of David W. Allan’s career. He developed a device to automatically remove systematic timing errors from quartz-crystal oscillators used for generating the United States’ official time. He also created a dual-mixer time-difference measurement system with sub-pico-second precision for comparing atomic clocks. His GPS common-view timing receiver has been used to transfer time from timing centers around the world to the International Bureau of Weights and Measures for generating coordinated universal time (UTC) as the world’s official time. His “smart-clock” method for enhancing GPS civil signals has been instrumental in synchronizing cell phone towers. The Allan Variance, Modified Allan Variance, and the Time Variance, which he developed, have become international standards for designing and constructing time and frequency equipment. An IEEE Life Senior Member, Allan is president of Allan's TIME, Fountain Green, UT, USA.

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T-UFFC SPECIAL ISSUE A Special Issue (SI) of the IEEE TRANSACTIONS ON ULTRASONICS, FERROELECTRICS, AND FREQUENCY CONTROL (T-UFFC) will be published with content from this conference. Following the 2018 IFCS conference, select papers from contributing authors of outstanding communications will be invited to submit a full manuscript for publication consideration. The editorial selection of the SI will feature exceptional student work to showcase the emerging young scientists, engineers, and applied technologists of our community. At-large conference presenters, and invited speakers are also encouraged to submit papers to the SI. Potential contributing authors are reminded that science and technology review papers, relevant to the 2018 IFCS Proceedings, are welcome to the SI review process. When responding to the SI call:

a. All special issue manuscripts shall undergo the standard T-UFFC peer review process.

b. The article should be identified as Manuscript Type “Special Issue” during submission.

Deadline for SI paper submission: July 30th, 2018. Interested authors are recommended to read the “T-UFFC Conference Special Issue Guide for Authors”, which is posted on the IFCS 2018 website. Of significant note - the manuscript for the SI of the T-UFFC must contain substantial additional technical material from the conference proceedings. This must be justified based on one or more of the following: new theoretical or experimental results, enhanced modeling and characterization, descriptions of new applications, better placing the study in its context, greater depth of discussion, more elaborate analysis of results and additional references. As a guideline for authors, the Editor-in-Chief of the T-UFFC has set the quantitative threshold for substantial additional technical material to be 40-50% above, not only the conference proceedings, but all previous publicly archived material. Guest Editors: POC, Gregory Weaver JHU/APL, gregory.weaver@jhuapl.edu Dana Weinstein, Purdue University Songbin Gong, Univeristy of Illinois, Urbana-Champaign Craig Nelson, NIST Francois-Xavier Esnault, CNES Philip Feng, Case Western Reserve University Stefania Romisch, NIST Dave Leibrandt, NIST Boulder

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STUDENT PAPER COMPETITION

A very strong group of submissions to the Student Paper Competition was received and reviewed by the Technical Program Committee. The list of finalists is given below. The competition features 24 student finalists representing all six topical groups. From these finalists, one winner will be chosen for each group. Judging of the winners will be based on:

(1) Quality and content of the work (2) Interest to our community (3) Significance of the contribution of the student to the work (4) Quality of the presentation

The competition will take place in the poster session on Wednesday, May 23, 2018 from 3:30 to 5:30 PM. The winners will be announced at the Awards Lunch on Thursday, May 24.

Student Paper Competition Finalists Group 1: Materials, Resonators, and Resonator Circuits (PF01) Temperature Coefficient of Frequency in Silicon-Based Cross-Sectional Quasi Lame Mode Resonators Sarah Shahraini, University of Central Florida (PF02) Towards Ka Band Acoustics: Lithium Niobate Asymmetrical Mode Piezoelectric MEMS Resonators Yansong Yang, University of Illinois at Urbana-Champaign (PF03) High-Cx/Co Hollow Disk Resonators Alper Ozgurluk, University of California, Berkeley (PF04) 2.5 GHz Highly-Linear Magnetic-Free Microelectromechanical Resonant Circulator Yao Yu, Northeastern University Group 2: Oscillators, Synthesizers, Noise, and Circuit Techniques (PF05) Commercial Crystal and MEMS Oscillators characterized at Deep-Cryogenic Temperatures Harald Homulle, TU Delft (PF06) Implementation of Multi-Step Look-Ahead Sigma-Delta Modulators Using IC Technology Charis Basetas, National Technical University of Athens (PF07) Field-deployable Photonic Microwave Synthesizer Michele Giunta, Menlo Systems GmbH (PF08) Low phase noise cryogenic amplifiers and oscillators based on superconducting resonators David Chaudy, Thales

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Group 3: Microwave Frequency Standards and Applications (PF09) Off-resonant Light Shift in CPT Ramsey Spectroscopy of Clock Transitions James Pollock, NIST (PF10) Progress Towards a Cadimium Ion Microwave Clock based on Sympathetic Cooling Yani Zuo, Tsinghua University (PF11) Inhomogeneous Light-Shift in Helium Magnetometer Sheng Li, Peking University (PF12) A Portable Microwave Clock Using Laser-Cooled Trapped 171Yb+ Ions Sean Mulholland, NPL Group 4: Sensors and Transducers (PF13) Micro-Resonator-on-Membrane for Real-time Biosensing Mohammad Mahdavi, University of Texas at Dallas (PF14) A 200-nm-gap Titanium Nitride Composite CMOS-MEMS CMUT for Biomedical Ultrasounds Tzu-Hsuan Hsu, National Tsing Hua University (PF15) MEMS Surface Coating Condition Monitoring via Nonlinear Tapping of Resoswitches Shih-Chuan Lu, National Taiwan University (PF16) Frequency Doubling in Wirelessly Actuated Multiferroic MEMS Cantilevers Sidhant Tiwari, UCLA Group 5: Timekeeping, Time and Frequency Transfer, GNSS Applications (PF17) Investigation into a GPS time pulse radiator for testing time-stamp accuracy of a radio telescope Zwivhuya Ramudzuli, SKA SA (PF18) ACES-Pharao test of the gravitational redshift: Refined estimation of the expected sensitivity Etienne Savalle, SYRTE (PF19) First Field Trial of the Frequency Transfer System with Passive Stabilization Scheme Chenxia Liu, BUPT (PF20) Nonlinear Interaction between Neighboring Data Channels and a Frequency Signal in a Commercial Optical Fiber Communication System Patrick Sykes, UMBC Group 6: Optical Frequency Standards and Applications (PF21) Detailed Characteristics and Cavity Stabilization of Dual-wavelength Good-bad Cavity Active Optical Clock Duo Pan, Peking University (PF22) Spectral Purity Transfer for High Performance Strontium Lattice Clocks Michele Giunta, Menlo Systems GmbH (PF23) Silicon cavity at 4 Kelvin with thermal noise limited performance John Robinson, JILA, University of Colorado at Boulder (PF24) Frequency comparison of two ytterbium optical lattice clocks at NIST with low 10⁻¹⁸ level uncertainty Xiaogang Zhang, National Institute of Standards and Technology

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FUTURE SYMPOSIA

2019 Joint IFCS-EFTF Conference April 14 – 18, 2019

Caribe Royale Resort, Orlando, Florida, USA

Organizers: Co-General Chairs: Debra Coler, Gaetano Mileti Co-JTPC Chairs: John Kitching, Davide Calonico Co-Awards Chairs: James Camparo, Pierre Waller Co-Academic Chairs: Rob Candler, François Vernotte Co-Tutorial Chairs: Matteo Rinaldi, Jérôme Delporte Finance Chair: Dan Stevens Co-Exhibits Chairs: Craig Nelson, Wolfgang Schäfer

23

SCHEDULE OVERVIEW

Monday, May 21 7:00 – 8:00 AM Tutorial Speaker Breakfast Tutorial Registration 8:00 – 10:00 AM Tutorlals 10:00 – 10:15 AM Coffee Break 10:15 – 12:15 PM Tutorials (Cont’d) 12:15 – 1:30 PM Lunch 1:30 – 3:30 PM Tutorials (Cont’d) 3:30 – 3:45 PM Coffee Break 3:45 – 5:45 PM Tutorials (Cont’d) Tuesday, May 22 7:00 – 8:20 AM Registration 7:20 – 8:20 AM Speaker Breakfast (for Oral Presenters) 8:20 – 9:40 AM Welcome Plenary Speaker – Richard Muller, UC Berkeley 9:40 – 10:00 AM Coffee Break/Exhibits 10:00 – 11:40 AM GNSS-Degraded Environments 11:40 – 1:00 PM Lunch 1:00 – 3:00 PM Lecture Sessions TO1.1: Applications and Analysis of Resonant Devices TO1.2: Cold-Atom Microwave Clocks TO1.3: Satellite-Based Time Transfer 3:00 – 3:30 PM Coffee Break/Exhibits 3:30 – 5:30 PM Lecture Sessions TO2.1: Optical Clocks TO2.2: Novel Physical Sensors & Applications TO2.3: Cryogenic and Optical Oscillators 6:00 – 7:00 PM Student/Industry Event 7:00 – 9:30 PM Banquet Dinner

24

Wednesday, May 23 7:00 – 8:20 AM Registration 7:20 – 8:20 AM Speaker Breakfast (for Oral Presenters) 8:20 – 9:40 AM Keithley & Rabi Awards Plenary Speaker – Kerry Vahala, CalTech 9:40 – 10:00 AM Coffee Break/Exhibits 10:00 – 11:40 AM MeerKAT and Components - Big and Small 11:40 – 1:00 PM Lunch Women in Engineering Lunch 1:00 – 3:00 PM Lecture Sessions WO1.1: Time and Frequency Dissemination WO1.2: Resonator Materials WO1.3: Precision optical oscillators 3:00 – 3:30 PM Coffee Break/Exhibits 3:30 – 5:30 PM Poster Session I Student Paper Competition Exhibitor’s Event 7:00 – 9:00 PM Rump Session Thursday, May 24 7:00 – 8:20 AM Registration 7:20 – 8:20 AM Speaker Breakfast (for Oral Presenters) 8:20 – 9:40 AM Cady & Sawyer Awards Plenary Speaker – Tom Kenny, Stanford University 9:40 – 10:00 AM Coffee Break/Exhibits 10:00 – 11:40 AM Lecture Sessions ThO1.1: Phase noise, Oscillators and Digital Control ThO1.2: Optical References ThO1.3: Acoustic Devices 11:40 – 1:00 PM Lunch/Student Awards 1:00 – 3:00 PM Poster Session II 2:30 – 3:30 PM Women in Engineering Reception 3:00 – 3:30 PM Coffee Break 3:30 – 5:30 PM Lecture Sessions ThO2.1: Micro/Nano Sensors & Applications ThO2.2: Clocks and Signal Processing ThO2.3: Vapor-Cell and Compact Microwave Clocks

25

TUTORIAL SCHEDULE

MONDAY, MAY 21

7:00 – 8:00 AM

Tutorial Speaker Breakfast Granite Chief

Track A

(Atomic Clocks and Sensors)

Track B

(Oscillators and MEMs)

Track C

(Timing and SynchronIzation)

Castle Peak Monument Peak Papoose Peak

8:00 – 10:00 AM

Microwave Atomic Clocks

Eric Burt, JPL

Quartz Resonators and Oscillators

John Vig, Consultant

Characterization of Clocks and

Oscillators Judah Levine, NIST

10:00 – 10:15 AM Break – Castle Prefunction

10:15 – 12:15 PM

An Introduction to

Optical Atomic Clocks

Andrew Ludlow, NIST

Phase Noise Metrology

Craig Nelson, NIST

What is Coordinated

Universal Time, anyway?

Stefania Romisch, NIST

12:15 – 1:30 PM Lunch – Emigrant Peak

1:30 – 3:30 PM

Fundamental Physics with Atomic Clocks

Andrei Derevianko, U. Nevada, Reno

MEMS-Based Oscillators

Clark Nguyen, UC Berkeley

Time transfer with optical links

Laura Sinclair, NIST

3:30 – 3:45 PM Break – Castle Prefunction

3:45 – 5:45 PM

Atomic Sensors and Applications

John Kitching, NIST

Resonant MEMS for inertial sensing

Ashwin Seshia, Cambridge U.

An Introduction to Global Navigation Satellite Systems

Ben Ashman, NASA GSFC

26

IEEE WOMEN IN ENGINEERING

WIE Lunch Wednesday, May 23 11:40 AM – 1:00 PM

Castle Peak

WIE Reception Thursday, May 24

2:30 – 3:30 PM Montagna’s Restaurant

Women active in the technical areas of the IEEE IFCS symposium are encouraged to attend these special networking events organized by the women of the UFFC Society.

STUDENT EVENTS This year at IFCS 2018 there are going to be two excellent student events:

1) Student Pub Social: come join the other students after the Monday tutorials from 6-8 PM at Sandy’s Pub for food and drinks!

2) Prior to the banquet, a student-industry event will be held at 6 PM at High Camp for students and industry representatives to meet and talk about job openings and the like!

27

RUMP SESSION: DEFINING OUR FUTURE What future applications will timing and our timing technologies enable? For example, Internet of Things, 5G networks, biomedical devices, autonomous vehicles, and quantum computing. What will be their critical requirements? What research, development, and policy challenges should we address now to tackle these? Can we project 5 and 10 years ahead? In addition to this technical outlook, we will consider what we would like from IFCS and UFFC. What can we do as a community to grow and strengthen the conference and the society? All conference attendees are encouraged to participate in this open discussion. Dialogue will be facilitated with light snacks, fireside s’mores, and plentiful drink.

Wednesday, May 23 7:00 – 9:00 PM

Pavilion

28

PLENARY SESSION INVITED TALKS

Richard Muller, Prof. Physics UC Berkeley emeritus, author: “Now—the Physics of Time”.

Tuesday, May 22 – 8:40 AM

The Physics of Time: Why does it flow?

Abstract: We know much about time, about its variability with velocity and gravity. Einstein took time to be the fourth dimension. But time is different. We can stand still in space (given any coordinate system) but not in time. Why? What is the meaning of “now”—that ephemeral concept whose meaning changes every moment? I don’t know where you

are, but I do know something about you: you are reading the word “now” right now! I will present a new theory for the flow of time, one that links it to the creation of new space through the expansion of the Universe. The old postulated connection between entropy and the arrow of time will be discredited as an untestable theory—or, more precisely, as a theory that has failed multiple tests. Remarkably, the new theory I will present is testable. Events that create new space, such as the collision of two black holes that led to the observation of gravitational waves, create new space at the site of the collision, and according to the theory, they should create a potentially observable level of new time.

Biography: Richard Muller is a retired (emeritus) Professor of Physics at UC Berkeley, with well-over 100 peer-reviewed publications. His “Physics for Future Presidents” was voted by students to be the best course at UC Berkeley. He is a prolific author, with 10 books including "Energy for Future Presidents" and the best-selling "Physics for Future Presidents." He is a frequent contributor of Op Eds to the Wall St. Journal and the New York Times on issues involving energy and environment. Prior to specializing in advanced energy, his research was in geophysics and astrophysics His proudest work include the discovery of the cosine anisotropy of the cosmic background and the invention of the now most-used method for measuring radiocarbon. He founded two astrophysics projects that went on to win Nobel Prizes in Physics for the scientists he hired to take them over. He has many awards, including a MacArthur "genius" Prize, the Texas Instruments Founders' Prize, election to fellow of the American Academy of Arts and Sciences. Largely because of his work on energy and environment, Foreign Policy cited him as one of the top 100 global thinkers in the world; Atlantic listed him as one of 21 "brave thinkers" in 2011; Time Magazine listed him as one of the top 100 "people who matter".

Subsequent to his academic retirement in 2010, Muller cofounded Berkeley Earth, a non-profit that studies global warming and air pollution. This work has been reported in peer-reviewed as well as in popular journals; he is particularly well known for his NYTimes OpEd “The Conversion of a Climate Change Skeptic.” In 2015 he cofounded Deep Isolation, a company offering a private approach to the storage and disposal of nuclear waste. The CEO is his daughter Elizabeth Muller, with a strong background in business and stakeholder engagement; he is CTO.

His most recent book “Now—the Physics of Time” (and an associated academic paper) address the issue of time; why does it move? He presents strong evidence that the widely accepted connection between the arrow of time and entropy is false, and argues that the “motion” of time is a result of the expansion of time as well as space in a 4-dimensional Big Bang.

29

PLENARY SESSION INVITED TALKS

Kerry Vahala (Ted and Ginger Jenkins Professor of Information Science and Technology and Professor of Applied Physics, CalTech)

Wednesday, May 23 – 8:40 AM

Towards Integrated Optical Time Standards and Frequency Synthesizers

Abstract: Communication systems leverage the respective strengths of optics and electronics to convey high-bandwidth signals over great distances. These systems were enabled by a revolution in low-optical-loss dielectric fiber, complex integrated circuits as well as

devices that link together the optical and electrical worlds. Today, another revolution is leveraging the advantages of optics and electronics in new ways. At its center is the laser frequency comb which provides a coherent link between these two worlds. Significantly, because the link is also bidirectional, performance attributes previously unique to electronics and optics can be shared. The end result has been transformative for time keeping, frequency metrology, precision spectroscopy, microwave-generation, ranging and other technologies. Even more recently, low-optical-loss dielectrics, now in the form of high-Q optical resonators, are enabling the miniaturization of frequency combs. These new `microcombs’ can be integrated with electronics and other optical components to potentially create systems on-a-chip. I will briefly overview the history and elements of frequency combs as well as the physics of the new microcombs. Efforts underway to develop integrated optical clocks and integrated optical frequency synthesizers using the microcomb element are also described.

Biogaphy: Professor Vahala studies the physics and applications of high-Q optical microcavities. His research group has pioneered resonators that hold the record for highest optical Q on a semiconductor chip and has also launched many of the research topics in the field of optical microcavities. Applications currently under study include micro-gyros with Earth-rotation-rate sensitivity and soliton micro-combs. Vahala was involved in the early effort to develop quantum-well lasers for optical communications and he received the IEEE Sarnoff Medal for his research on quantum-well laser dynamics. He has also received an Alexander von Humboldt Award for work on ultra-high-Q optical microcavities and is a fellow of the IEEE, the IEEE Photonics Society and the Optical Society of America. Vahala is the Jenkins Professor of Information Science and Technology and Professor of Applied Physics and received his B.S., M.S., and Ph.D. degrees from Caltech. He currently serves as the Executive Officer of the Department of Applied Physics and Materials Science and holds over 30 patents in photonics.

30

PLENARY SESSION INVITED TALKS

Tom Kenny (Associate Dean, Professor of Mechanical Engineering, Stanford University)

Thursday, May 24 – 8:40 AM

Encapsulated MEMS: What’s Good for the Resonator is Good for the Sensor

Abstract: Since the demonstration of the Resonant Gate Transistor by Harvey Nathason and his team more than 50 years ago, we’ve all been interested in the potential application of

MicroElectroMechanical Systems (MEMS) for timing applications. Of course, there were obstacles, with the biggest associated with the frequency stability of MEMS resonators. After significant effort, we found that stability in MEMS resonators could be improved by ultra-clean high-temperature encapsulation processes. Today, oscillators based on MEMS resonators are providing stability competitive with the best quartz-based oscillators, with improved size, power, weight, reliability, and cost.

Since the earliest demonstration of MEMS inertial sensors for automotive applications more than 30 years ago, we’ve all be interested in the potential application of these devices for inertial navigation applications. Of course, there were obstacles, with the biggest associated with the stability of MEMS sensors. There has been extensive effort on development of materials, operational schemes and other approaches to overcome stability issues. Our group has been exploring one central question: can we build inertial sensors in an encapsulation process similar to that used for the highest-stability MEMS resonators, and is this a path towards ultra-stable inertial MEMS sensors?

Biography: Thomas W. Kenny received the B.S. degree in physics from the University of Minnesota, Minneapolis, in 1983, and the M.S. and Ph.D. degrees in physics from the University of California, Berkeley, in 1987 and 1989, respectively. From 1989 to 1993, he was with the Jet Propulsion Laboratory, National Aeronautics and Space Administration, Pasadena, CA, where his research focused on the development of electron-tunneling high-resolution microsensors. In 1994, he joined the Department of Mechanical Engineering, Stanford University, Stanford, CA, where he directs Microsensor-based research in a variety of areas, including resonators, wafer-scale packaging, cantilever beam force sensors, microfluidics, and novel fabrication techniques for micromechanical structures. He was Founder and CTO of Cooligy (now a division of Emerson), a microfluidics chip cooling component manufacturer, and was Founder and Board Member of SiTime Corporation (now a division of MegaChips), a developer of timing references using MEMS resonators. He is founder and Board Member of Applaud Medical, developing non-invasive therapies for kidney stones. He is currently the Richard Weiland Professor of Mechanical Engineering and the Senior Associate Dean of Engineering for Student Affairs. He was the General Chairman of the 2006 Hilton Head Solid State Sensor, Actuator, and Microsystems Workshop, and the General Chair of the Transducers 2015 meeting in Anchorage. From October 2006 through September 2010, he was on leave to serve as Program Manager in the Microsystems Technology Office at the Defense Advanced Research Projects Agency, starting and managing programs in thermal management, nanomanufacturing, manipulation of Casimir forces, and the Young Faculty Award. He has authored or coauthored over 250 scientific papers and is a holder of 50 issued patents, and has been advisor to more than 60 graduated PhD students from Stanford.

31

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Carr

ier I

nter

actio

ns in

Si

licon

-Bas

ed M

EMS

Reso

nato

rs

Hakh

aman

esh

Man

soor

zare

1 , He

dy F

atem

i2 , Re

za

Abdo

lvan

d1

Un i

vers

ity o

f Cen

tral

Flo

rida1 ,

Qor

vo In

c.2

Com

pact

Ato

mic

Clo

ck w

ith D

iffus

e La

ser-

Cool

ed

Atom

s

Lian

g Li

u, H

ua-D

ong

Chen

g, Y

an-L

ing

Men

g, L

in L

i, Jin

-Yin

Wan

, Min

g-Yu

an Y

u, Y

a-N

ing

Wan

g, X

in

Wan

g, X

iu-M

ei W

ang,

Lin

g Xi

ao

Shan

g hai

Inst

itute

of O

ptic

s and

Fin

e M

echa

nics

, Ch

ines

e Ac

adem

y of

Sci

ence

s

Abso

lute

Cal

ibra

tion

of th

e BD

S-3

Rece

iver

Bas

ed

on G

loba

l Sig

nal S

yste

m

Huan

g Lu

xi, Z

hu F

eng,

Li X

iaoh

ui

NTS

C

14:4

0 –

15:0

0 14

:40

– 15

:00

14:4

0 –

15:0

0

Tem

pera

ture

Coe

ffici

ent o

f Fre

quen

cy in

Sili

con-

Base

d Cr

oss-

Sect

iona

l Qua

si L

ame

Mod

e Re

sona

tors

Sar a

h Sh

ahra

ini1 ,

Hedy

Fat

emi2 ,

Reza

Abd

olva

nd1

Uni

vers

ity o

f Cen

tral

Flo

rida1 ,

Qor

vo2

A Co

ld A

tom

ic B

eam

Ram

sey

CPT

Cloc

k

John

Elg

in1 ,

Thom

as H

eavn

er1 ,

John

Kitc

hing

1 , El

izabe

th D

onle

y1 , Ev

an S

alim

2 , Ja

yson

Den

ney2

NI S

T1 , Co

ldQ

uant

a2

NRC

Tim

eLin

kTM D

isse

min

atin

g U

TC(N

RC) t

o re

mot

e us

ers w

ith n

anos

econ

d pr

ecis

ion

Mar

ina

Gert

svol

f, Jo

hn B

erna

rd, A

ndre

Ch

arbo

nnea

u, B

ill H

oger

, Hai

Pha

m

NRC

15:0

0 –

15:3

0 Co

ffee

Brea

k/Ex

hibi

ts

Gran

d Si

erra

AB

35

TUES

DAY

, MAY

22

Alpi

ne A

Al

pine

B

Gran

d Si

erra

C

TO2.

1: O

ptic

al C

lock

s TO

2.2:

Nov

el P

hysi

cal S

enso

rs &

App

licat

ions

TO

2.3:

Cry

ogen

ic a

nd O

ptic

al O

scill

ator

s

Sess

ion

Chai

rs: F

rank

lyn

Qui

nlan

, NIS

T Se

ssio

n Ch

airs

: Fab

ien

Joss

e, M

arqu

ette

Uni

vers

ity

Suni

l Bha

ve, P

urdu

e U

nive

rsity

Se

ssio

n Ch

air:

Enric

o Ru

biol

a, F

EMTO

-ST

Inst

itute

15:3

0 –

16:1

0 15

:30

– 16

:10

15:3

0 –

16:1

0

INVI

TED:

Tow

ard

a re

defin

ition

of t

he S

I sec

ond

with

opt

ical

clo

cks:

an

over

view

of r

ecen

t pr

ogre

ss

Seba

stie

n Bi

ze

Paris

Obs

erva

tory

INVI

TED:

Nov

el U

ses o

f Sta

biliz

ed O

ptic

al

Freq

uenc

y Co

mbs

: fro

m R

egio

nal M

etha

ne L

eak

Sour

ce Id

entif

icat

ion

to D

iagn

ostic

s for

Ext

rem

e Co

mbu

stio

n

Greg

Rie

ker1 ,

Sean

Cob

urn2 ,

Caro

line

Alde

n2 , Ry

an

Cole

1 , An

thon

y Dr

aper

1 , Pa

ul S

chro

eder

1 , Ro

bert

W

right

1 , Ia

n Co

ddin

gton

3 , Ke

vin

Coss

el3 ,

Esth

er

Baum

ann3 ,

Kuld

eep

Pras

ad3 ,

Nat

han

New

bury

3

Un i

vers

ity o

f Col

orad

o1 , U

nive

rsity

of C

olor

ado

Boul

der2 ,

Nat

iona

l Ins

titut

e of

Sta

ndar

ds a

nd

Tech

nolo

gy3

INVI

TED:

Bril

loui

n ph

oton

ic in

tegr

ated

dev

ices

fo

r ultr

ahig

h-re

solu

tion

and

broa

dban

d m

icro

wav

e si

gnal

pro

cess

ing

Ben

Eggl

eton

, Am

ol C

houd

hary

The

Uni

vers

ity o

f Syd

ney

36

16:1

0 –

16:3

0 16

:10

– 16

:30

16:1

0 –

16:3

0

Syst

emat

ic u

ncer

tain

ty o

f an

27Al

+ opt

ical

ato

mic

cl

ock

Davi

d Le

ibra

ndt1,

2, S

amue

l Bre

wer

1 , Jw

o-Sy

Che

n1,

2 , Da

vid

Hum

e1 , Aa

ron

Hank

in1 ,

Etha

n Cl

emen

ts1,

2,

Chin

-Wen

Cho

u1 , Da

vid

Win

elan

d1, 2

NIS

T1 , U

nive

rsity

of C

olor

ado2

Q

uant

um se

nsor

s for

mag

netic

fiel

d co

mm

unic

atio

n

Vlad

islav

Ger

gino

v, F

abio

da

Silv

a, D

avid

How

e

Nat

iona

l Ins

titut

e of

Sta

ndar

ds a

nd T

echn

olog

y

Lo

w p

hase

noi

se cr

yoge

nic

ampl

ifier

s and

os

cilla

tors

bas

ed o

n su

perc

ondu

ctin

g re

sona

tors

Davi

d Ch

audy

1, 2

, Oliv

ier L

lopi

s2 , Je

an-M

iche

l Ho

de1 ,

Brun

o M

arci

lhac

3 , Yv

es L

emai

tre3 ,

Oliv

ier

d'Al

livy

Kelly

3

LAAS

-CN

RS, U

nive

rsité

de

Toul

ouse

, CN

RS1 ,

Thal

es

Syst

èmes

Aér

opor

tés2 ,

Uni

té M

ixte

de

Phys

ique

, CN

RS, T

hale

s, P

aris-

Sud3

16

:30

– 16

:50

16:3

0 –

16:5

0 16

:30

– 16

:50

40

Ca+ I

on O

ptic

al C

lock

with

Sys

tem

atic

U

ncer

tain

ty a

t 2.2

&[m

ult]

10-1

7

Kelin

Gao

, Hua

Gua

n, Y

ao H

uang

Wuh

an In

stitu

te o

f Phy

sics a

nd M

athe

mat

ics,

CAS

Pr

obin

g Re

spon

se to

γ-R

ay Ir

radi

atio

n on

Se

mic

ondu

ctin

g Tw

o-Di

men

sion

al (2

D)

Reso

nato

rs

Ph

ilip

Feng

, Jae

sung

Lee

Case

Wes

tern

Res

erve

Uni

vers

ity

Po

und

Stab

ilize

d Cr

yoge

nic

Bulk

Aco

ustic

Wav

e Re

sona

tor-

Osc

illat

or

M

icha

el T

obar

1 , Eu

gene

Ivan

ov1 ,

Max

im

Gory

ache

v, S

erge

Gal

liou2

U

nive

rsity

of W

este

rn A

ustr

alia

1 , FE

MTO

-ST

2

37

16:5

0 –

17:1

0 16

:50

– 17

:10

16:5

0 –

17:1

0

Freq

uenc

y co

mpa

rison

of t

wo

ytte

rbiu

m o

ptic

al

latt

ice

cloc

ks a

t NIS

T w

ith lo

w 1

0-18 l

evel

un

cert

aint

y

Xiao

gang

Zha

ng1,

2, W

illia

m M

cGre

w1,

2, S

tefa

n Sc

haef

fer1,

2, K

yle

Belo

y1 , Ro

bert

Fas

ano1,

2, D

anie

le

Nic

olod

i1 , Ro

ger B

row

n1 , Ri

char

d Fo

x1 , An

drew

Lu

dlow

1

Nat

iona

l Ins

titut

e of

Sta

ndar

ds a

nd T

echn

olog

y1 , St

ate

Key

Labo

rato

ry o

f Adv

ance

d O

ptic

al

Com

mun

icat

ion

Syst

ems a

nd N

etw

orks

, Sch

ool o

f El

ectr

onic

s Eng

inee

ring

and

Com

pute

r Sci

ence

, Pe

king

Uni

vers

ity, B

eijin

g, C

hina

2 , De

part

men

t of

Phys

ics,

Uni

vers

ity o

f Col

orad

o, B

ould

er, C

olor

ado,

U

SA3 ,

Nei

ls Bo

hr In

stitu

te, U

nive

rsity

of

Cope

nhag

en, C

open

hage

n, D

enm

ark4

Freq

uenc

y Do

ublin

g in

Wire

less

ly A

ctua

ted

Mul

tifer

roic

MEM

S Ca

ntile

vers

Sidh

ant T

iwar

i, M

ax H

o, R

ober

t Can

dler

UCL

A

Low

pha

se n

oise

tuna

ble

OEO

lock

ed to

a h

igh

sens

itivi

ty p

hase

noi

se a

naly

zer

Nao

ya K

use,

Mar

tin F

erm

ann

IMRA

Am

eric

a

17:1

0 –

17:3

0 17

:10

– 17

:30

17:1

0 –

17:3

0

Sr la

ttic

e cl

ocks

at N

PL

Ian

Hill1 ,

Rich

ard

Hobs

on1 ,

Will

iam

Bow

den1 ,

Mar

co S

chio

ppo1 ,

Aliss

a Si

lva1 ,

Patr

ick

Gill1 ,

Hele

n M

argo

lis1 ,

Mat

thew

Jone

s2 , Pa

ul H

uille

ry2

NPL

1 , Du

rham

Uni

vers

ity2

Dete

ctio

n an

d Q

uant

ifica

tion

of M

ulti-

Anal

yte

Mix

ture

s Usi

ng a

Sin

gle

Sens

or a

nd M

ulti-

Stag

e Da

ta-W

eigh

ted

RLSE

Fabi

en Jo

sse1 ,

Kart

hick

Sot

hive

lr1 , Fl

oria

n Be

nder

1 , Ed

win

E. Y

az1 ,

Anto

nio

J. Ri

cco2

Mar

quet

te U

nive

rsity

1 , St

anfo

rd U

nive

rsity

2

Dire

ct S

tabi

lity

Mea

sure

men

t of C

ryog

enic

Sa

pphi

re O

scill

ator

s with

Tra

ckin

g DD

Ss a

nd T

wo-

Sam

ple

Cova

rianc

e

Enric

o Ru

biol

a1 , Cl

audi

o Ca

loss

o2 , Ch

risto

phe

Fluh

r3 , Be

noit

Dubo

is3 , Fr

anco

is Ve

rnot

te1 ,

Vinc

ent

Gior

dano

1

FEM

TO-S

T In

stitu

te1 ,

INRI

M2 ,

FEM

TO E

ngin

eerin

g3

18:0

0 –

19:0

0 19

:00

– 21

:30

Stud

ent/

Indu

stry

Eve

nt

Banq

uet D

inne

r Hi

gh C

amp

38

WED

NES

DAY

, MAY

23

7:20

– 8

:20

AM

Spea

ker’s

Bre

akfa

st

Emig

rant

Pea

k

8:20

– 9

:40

AM

Keith

ley

& R

abi A

war

ds

Plen

ary

Spea

ker

Kerr

y Va

hala

, Cal

Tech

To

war

ds In

tegr

ated

Opt

ical

Tim

e St

anda

rds a

nd F

requ

ency

Syn

thes

izers

9:40

– 1

0:00

AM

Co

ffee

Brea

k/Ex

hibi

ts

Gran

d Si

erra

AB

Alpi

ne A

B

Mee

rKAT

and

Com

pone

nts -

Big

and

Sm

all

Sess

ion

Chai

r: Gr

egor

y W

eave

r, JH

UAP

L

Mee

rKAT

(af

fect

iona

tely

“m

ore

Karo

o Ar

ray

Tele

scop

e”)

is a

fore

runn

er p

roje

ct t

o th

e So

uth

Afric

an S

quar

e Ki

lom

eter

Arr

ay (

SKA)

, an

d re

pres

ents

the

co

ntin

uatio

n of

a n

ew p

arad

igm

in d

eep

spac

e as

tron

omy,

whe

re a

larg

e nu

mbe

r of m

ediu

m si

ze a

nten

na a

pert

ures

(64,

13.

5 m

dish

es in

the

case

of M

eerK

AT)

are

brou

ght i

nto

prec

ise p

hase

alig

nmen

t thr

ough

dig

ital c

ompe

nsat

ion,

ach

ievi

ng a

n ef

fect

ive

obse

rvat

iona

l ape

rtur

e of

ext

rem

e siz

e an

d co

nseq

uent

reso

lutio

n.

The

lead

spea

ker o

f thi

s ses

sion

will

disc

uss t

he d

istrib

utio

n of

the

Karo

o Te

lesc

ope

Tim

e tim

esca

le th

roug

hout

the

Mee

rKAT

inst

alla

tion,

whe

re n

ot o

nly

timin

g ac

cura

cy, b

ut lo

w re

sidua

l pha

se n

oise

driv

e th

e pe

rfor

man

ce re

quire

men

ts. F

unda

men

tally

, the

se re

quire

men

ts a

re a

chie

ved

thro

ugh

the

impl

emen

tatio

n of

cr

itica

l, an

d of

ten

nove

l pho

toni

c, a

nd R

F sig

nal c

ompo

nent

s.

In fo

llow

-up,

this

cros

s-co

nfer

ence

ses

sion

then

pro

ceed

s to

brin

g fo

rwar

d ex

citin

g de

velo

pmen

ts in

com

pone

nt te

chno

logi

es, r

angi

ng fr

om c

hip-

scal

e M

EMS

base

d sig

nal

anal

yzer

s to

int

egra

ted

phot

onic

rou

ting

for

optic

al a

tom

ic d

iscrim

inat

ors/

sens

ors.

Att

ende

es o

f th

e se

ssio

n ar

e th

eref

ore

expo

sed

to t

he

rela

tions

hip

of e

volv

ing

high

ly co

mpl

ex ti

min

g an

d fr

eque

ncy

cont

rol s

yste

ms f

rom

insig

htfu

l com

pone

nt le

vel d

evel

opm

ents

, and

reci

proc

ally

how

the

need

s of

emer

ging

syst

ems s

uch

as 5

G im

part

the

basis

for n

ew c

ompo

nent

real

izatio

n.

10:0

0 –

10:2

0

Robu

st T

ime

Scal

e De

sign

and

Impl

emen

tatio

n fo

r Tel

esco

pe T

ime

in a

Rem

ote

Dese

rt E

nviro

nmen

t

Joha

n Bu

rger

, Ren

ier S

iebr

its, G

rant

Ada

ms,

Rom

eo G

amat

ham

, Tho

mas

Abb

ott,

Fran

cois

Kapp

, Non

tobe

ko M

nyan

du, V

eree

se v

an T

onde

r, M

arc

Wel

z, A

ngel

o Sy

ce, P

eter

Rog

ers

Sout

h Af

rican

Rad

io A

stro

nom

y O

bser

vato

ry

39

10:2

0 –

10:4

0

2.5

GHz

Hig

hly-

Line

ar M

agne

tic-F

ree

Mic

roel

ectr

omec

hani

cal R

eson

ant C

ircul

ator

Yao

Yu1 ,

Flav

ius P

op1 ,

Gius

eppe

Mic

hett

i1 , Pi

otr K

ulik

1 , M

iche

le P

irro1 ,

Ahm

ed K

ord2 ,

Dim

itrio

s Sou

nas2 ,

Andr

ea A

lu2 ,

Mat

teo

Rina

ldi1

Nor

thea

ster

n U

nive

rsity

1 , U

nive

rsity

of T

exas

at A

ustin

2

10:4

0 –

11:0

0

A Lo

w-P

ower

CM

OS-

MEM

S Vi

brat

ion

Spec

trum

Ana

lyze

r

Varu

n Su

bram

ania

m K

umar

1 , Al

ireza

Ram

ezan

y1 , Aj

it Sh

arm

a2 , Si

avas

h Po

urka

mal

i1

Uni

vers

ity o

f Tex

as a

t Dal

las1 ,

Texa

s Ins

trum

ents

2

11:0

0 –

11:2

0

Tow

ards

Ka

Band

Aco

ustic

s: L

ithiu

m N

ioba

te A

sym

met

rical

Mod

e Pi

ezoe

lect

ric M

EMS

Reso

nato

rs

Yans

ong

Yang

1 , Ru

oche

n Lu

1 , To

mas

Man

zane

que1 ,

Song

bin

Gon

g1

Uni

vers

ity o

f Illi

nois

at U

rban

a-Ch

ampa

ign1

11:2

0 –

11:4

0

Free

-Spa

ce to

Sin

gle-

Mod

e W

aveg

uide

Cou

plin

g fo

r Pho

toni

cally

Inte

grat

ed C

hip-

Scal

e Sp

ectr

osco

py

Doug

Bop

p1 , So

ngba

i Kan

g1 , M

atth

ew H

umm

on1 ,

John

Kitc

hing

1 , Sa

ngsik

Kim

2 , Al

exan

der Y

ulae

v2 , Da

ron

Wes

tley2 ,

Kart

ik S

riniv

asan

2 , Vl

adim

ir Ak

syuk

2

NIS

T, B

ould

er1 ,

NIS

T, G

aith

ersb

urg2

11:4

0 –

13:0

0

Lunc

h Pa

vilio

n W

omen

in E

ngin

eerin

g Lu

nch

Cast

le P

eak

40

WED

NES

DAY

, MAY

23

Alpi

ne A

Al

pine

B

Gran

d Si

erra

C

WO

1.1:

Tim

e an

d Fr

eque

ncy

Diss

emin

atio

n W

O1.

2: R

eson

ator

Mat

eria

ls W

O 1

.3: P

reci

sion

opt

ical

osc

illat

ors

Sess

ion

Chai

rs: S

tefa

nia

Rom

isch,

NIS

T Se

ssio

n Ch

airs

: Sar

ah B

edai

r, U

.S. A

rmy

Rese

arch

La

bora

tory

Si

d Gh

osh,

MIT

Se

ssio

n Ch

air:

Andr

ew L

udlo

w, N

IST

13:0

0 –

13:4

0 13

:00

– 13

:40

13:0

0 –

13:4

0

INVI

TED:

Dis

sem

inat

ion

of R

efer

ence

Sig

nals

for a

N

ext G

ener

atio

n Ra

dio

Tele

scop

e

Ren i

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43

WEDNESDAY POSTER SESSIONS 15:30 – 17:30 Grand Sierra D/Prefunction (prefix numbers indicate poster space) Session I: Analysis of Resonant Devices Session Chair: Jan H. Kuypers, Qorvo *Student Paper Competition *PF01: Temperature Coefficient of Frequency in Silicon-Based Cross-Sectional Quasi Lame Mode Resonators Sarah Shahraini1, Hedy Fatemi2, Reza Abdolvand1 University of Central Florida1, Qorvo2 *PF02: Towards Ka Band Acoustics: Lithium Niobate Asymmetrical Mode Piezoelectric MEMS Resonators Yansong Yang, Ruochen Lu, Tomas Manzaneque, Songbin Gong University of Illinois at Urbana-Champaign *PF03: High-Cx/Co Hollow Disk Resonators Alper Ozgurluk, Yafei Li, Clark T.-C Nguyen University of California, Berkeley *PF04: 2.5 GHz Highly-Linear Magnetic-Free Microelectromechanical Resonant Circulator Yao Yu1, Flavius Pop1, Giuseppe Michetti1, Piotr Kulik1, Michele Pirro1, Ahmed Kord2, Dimitrios Sounas2, Andrea Alu2, Matteo Rinaldi1 Northeastern University1, University of Texas at Austin2 WP01: Aspect Ratio Influence on Anchor Loss Using Rapid Analytical FEA Technique Ryan Rudy, Sarah Bedair, Jonathan Puder, Ronald Polcawich, Jeffrey Pulskamp US Army Research Laboratory WP02: Orientation-Dependence of Anchor Damping and Thermal Expansion Coefficients in Silicon MEMS Resonators Janna Rodriguez1, Christopher Watson1, Grant Glaze1, Gabrielle Vukasin1, Ian Flader1, Yunhan Chen2, Chae Anh2, Thomas Kenny1 Stanford University1, Apple Inc.2 WP03: Achieving the Intrinsic Limit of Quality Factor in VHF Extensional-Mode Block Resonators Hakhamanesh Mansoorzare1, Sina Moradian1, Sarah Shahraini1, Jonathan Gonzales2, Reza Abdolvand1 University of Central Florida1, Oklahoma State University2 WP04: An Analytical Formulation of the Radio-Frequency Response of Piezoelectric Contour-Mode MEMS Resonators Verified by Measurements Johannes Stegner, Sebastian Gropp, Dmitry Podoskin, Uwe Stehr, Martin Hoffmann, Matthias Hein Technische Universität Ilmenau WP05: Frequency stability of 3D encapsulated VHF MEMS resonator Jinling Yang, Fengxiang Wang, Quan Yuan, Xiao Kan, Zeji Chen, Fuhua Yang Institute of Semiconductors, CAS

44

WP06: Experimental Mapping of the Operational Regimes of Phononic Frequency Combs Adarsh Ganesan, Ashwin Seshia University of Cambridge

WP07: Frequency-temperature relations of novel cuts of quartz crystals for resonator applications Ji Wang1, Liangmeng Zhang1, Shaoyun Wang1, Longtao Xie1, Tingfeng Ma1, Jianke Du1, Yook-Kong Yong2 Ningbo University1, Rutgers University2 WP08: A Comprehensive Model for Graphene Resonator Frequency Tuning via Electrostatic Gating Philip Feng1, Tengda Mei2, Jaesung Lee1, Yuehang Xu2 Case Western Reserve University1, University Electronic Science and Technology of China2 WP09: Advanced ion beam technology to extremely precise 0.1nm surface trimming Sebastian Gatz, Monika Fritzsche, Dirk Rost, Jens Landrock, Anja Banholzer Meyer Burger (Germany) GmbH

Session I: Oscillators, Synthesizers, and Circuits Techniques Session Chair: Archita Hati, NIST *PF05: Commercial Crystal and MEMS Oscillators characterized at Deep-Cryogenic Temperatures Harald Homulle, Edoardo Charbon TU Delft *PF06: Implementation of Multi-Step Look-Ahead Sigma-Delta Modulators Using IC Technology Charis Basetas, Nikos Temenos, Paul Peter Sotiriadis National Technical University of Athens *PF07: Field-deployable Photonic Microwave Synthesizer Michele Giunta1, 2, Wolfgang Hänsel2, Maurice Lessing2, Matthias Lezius2, Marc Fischer2, Ronald Holzwarth1, 2, Xiaopeng Xie3, Romain Bouchand3, Daniele Nicolodi3, Yann Le Coq3, Pierre-Alaine Tremblin4, Giorgio Santarelli4, Shubo Datta5, Abbay Joshi5 Max Planck Institute for Quantum Optics1, Menlo Systems GmbH2, LNE-SYRTE, Observatoire de Paris3, LP2N, Université de Bordeaux4, Discovery Semiconductor Inc.5 *PF08: Low phase noise cryogenic amplifiers and oscillators based on superconducting resonators David Chaudy1, 2, Olivier Llopis2, Jean-Michel Hode1, Bruno Marcilhac3, Yves Lemaitre3, Olivier d'Allivy Kelly3 LAAS-CNRS, Université de Toulouse, CNRS1, Thales Systèmes Aéroportés2, Unité Mixte de Physique, CNRS, Thales, Paris-Sud3 WP10: A Low Jitter Monolithic MEMS Thin Film SAW Oscillator in 0.13 µm CMOS Ahmad El-Hemeily1, Sameh A. Ibrahim1, Mohamed Atef2, Ali Fawzy2, Ayman Ahmed2, Eloi Marigo Ferrer3, Mohanraj Soundara Pandian3, Arjun Kumar Kantimahanti3 Ain Shams University1, Si-Ware Systems2, Silterra Malaysia Sdn. Bhd3

45

WP11: Quasi-zero-stiffness Vibration Isolator for Ultra-Stable Optical Cavity of Atomic Clock Lei Liu1, KeDa He1, Guanjun Xu2 School of Astronautics Northwestern Polytechnical University1, National Time Service Center Chinese Academy of Science 2 WP12: Optomechanical coupling in a quartz crystal resonator for cryogenic clocks Jérémy Bon1, Kevin Rosenziveig1, Philippe Abbé1, Cyrus Rocher1, Serge Galliou1, Leonhard Neuhaus2, Samuel Deléglise2, Tristant Briant2, Pierre-François Cohadon2 Femto-ST Institute1, Laboratoire Kastler Brossel2 WP13: An Ultra-Low-Power Third-Order Frequency-to-Digital Converter for FM MEMS Gyroscope Yang Zhao1, Zhiqiang Wu1, Guoming Xia1, Qin Shi1, Yu Wang1, Anping Qiu1, Haiying Wang2, Jianfeng Du2 Nanjing University of Science and Technology1, Shanghai Aerospace Control Technology Institute2 WP14: A Low-Jitter Technique of Frequency Multiplication Using Quartz Crystal Array Hanwen Liu, Shaoshuang Su, Zhiqiang Zhou, Xiaojiang Liang, Ping Wang Jiangxi Chuangcheng Microelectronics R&D Division WP15: Realization of Voltage Controlled Temperature Compensated Crystal Oscillator with Single Varactor Xianhe Huang, Fusheng Peng, Yimei Li, Jianguo Hu UESTC WP16: Compact High-Precision Analog Temperature Controller for MEMS Inertial Sensors Arif Mustafazade, Ashwin A. Seshia University of Cambridge WP17: A Direct Feedback Oscillator Topology Employing Weakly Coupled Resonators for Gain Control Chun Zhao1, Milind Pandit1, Guillermo Sobreviela1, Arif Mustafazade1, Sijun Du1, Xudong Zou3, Ashwin Seshia1 University of Cambridge1, School of Electronics, Electrical, and Communication Engineering, University of Chinese Academy of Sciences2, State Key Laboratory of Transducer Technology, Institute of Electronics, Chinese Academy of Sciences3 WP18: Α Factor Measurement Using Laser Dynamics Yanguang Yu, Yuxi Ruan, Bin Liu, Jiangtao Xi, Qinghua Guo, Jun Tong University of Wollongong WP19: A self-mixing laser diode for profile measurement Yanguang Yu, Han Wang, Jiangtao Xi, Qinghua Guo, Jun Tong University of Wollongong

46

Session I: Microwave Clocks and Applications Session Chair: Elizabeth Donley, NIST *PF09: Off-resonant Light Shift in CPT Ramsey Spectroscopy of Clock Transitions James Pollock, Moshe Shuker, Xiaochi Liu, John Kitching, Elizabeth Donley, Valera Yudin, M. Yu. Basalaev, Alexey Taichenachev NIST *PF10: Progress Towards a Cadimium Ion Microwave Clock based on Sympathetic Cooling Jianwei Zhang, Yani Zuo, Jize Han, Lijun Wang Tsinghua University *PF11: Inhomogeneous Light-Shift in Helium Magnetometer Sheng Li1, Haidong Wang1, Zaisheng Lin1, Xiang Peng1, Jingbiao Chen1, Hong Guo2 School of Electronics Engineering and Computer Science, Peking University1, School of Electronics Engineering and Computer Science2 *PF12: A Portable Microwave Clock Using Laser-Cooled Trapped 171Yb+ Ions Sean Mulholland1, 2, Sean Donnellan1, Geoffrey Barwood1, David Gentle1, Guilong Huang1, Hugh Klein1, Pravin Patel1, Greg Walsh1, Patrick Baird2, Patrick Gill1, 2 NPL1, University of Oxford2 WP20: Preliminary Evaluation of NRC-FCs2 Fountain Clock at the National Research Council Canada Scott Beattie1, Bin Jian1, A. John Alcock1, Marina Gertsvolf1, Rich Hendricks2, Krzysztof Szymaniec2, Kurt Gibble3 National Research Council of Canada1, National Physical Laboratory2, The Pennsylvania State University3 WP21: Using a low phase noise H-maser as a local oscillator for Rb discriminator Michael Aleynikov, Alexander Boyko, Igor Blinov, Sergey Donchenko VNIIFTRI WP22: The study of Ramsey and Rabi frequency pulling shift Ruan Jun, Shi Junru, Guan Yong, Wang Xinliang, Liu Dandan, Zhang Hui, Bai Yang, Yu Fengxiang, Liu Hao, Yang Fan, Zhang Shougang National Time Service Center WP23: A portable cold 87Rb atomic clock with frequency instability at one day in the 10-15 range Franklin Ascarrunz1, Yaroslav Dudin1, Maria Delgado Aramburo1, Leonardo Ascarrunz1, Joshua Savory2, Alessandro Banducci2, Steven Jefferts2 SpectraDynamics, Inc.1, National Institute of Standards and Technology 2 WP24: Miniaturized and low power mercury microwave ion clock Nan Yu1, Gurpreet Gulati2, Sang Chung1, Thanh Le1, John Prestage1, Lin Yi1, Robert Tjoelker1, Chris Holland3 Jet Propulsion Laboratory1, California Institute of Technology, Jet Propulsion Laboratory2, Sensor system Laboratory, SRI system3 WP25: Isotopically Pure Silcon 28 Whispering Gallery Mode Resonators: A Host for Narrow Linewidth Spin Ensembles Michael Tobar1, Jeremy Bourhill1, Maxim Goryachev1, Daniel Creedon2, Brett Johnson2, David Jamieson2 University of Western Australia1, University of Melbourne2

47

WP26: Frequency Response of a Close-Loop Bell-Bloom Magnetometer Hong Guo1, Rui Zhang1, 2, Bo Pang1, Wenhao Li1, Yucheng Yang1, Jingbiao Chen1, Xiang Peng1 Peking University1, National University of Defense Technology2 WP27: Investigation of Rabi Rsonance for Measuring Microwave Magnetic Field Fuyu Sun1, Xiaochi Liu2, Zhiyuan Jiang2, Jifeng Qu2, Dong Hou1, Qingsong Bai1, Xianhe Huang1 University of Electronic Science and Technology of China1, National Institute of Metrology2 WP28: Progress of the Atomic Fountain Clock KRISS-F1 Taeg Yong Kwon1, Sang-Bum Lee1, Sang Eon Park1, 2, Myoung-Sun Heo1, Hyun-Gue Hong1, Sangmin Lee1, 2, Kurt Gibble3, John Hartnett4 Korea Research Institute of Standards and Science1, University of Science and Technology2, The Pennsylvania State University3, The University of Adelaide4 WP29: Atomic Gravimeter based on Atom Interferometry Being Developed at KRISS Taeg Yong Kwon, Sang-Bum Lee, Sang Eon Park, Myoung-Sun Heo, Hyun-Gue Hong Korea Research Institute of Standards and Science Session I: Sensors and Transducers Session Chair: Sid Tallur, IIT Bombay *PF13: Micro-Resonator-on-Membrane for Real-time Biosensing Mohammad Mahdavi, Honglei Wang, Amin Abbasalipour, Walter Hu, Siavash Pourkamali University of Texas at Dallas *PF14: A 200-nm-gap Titanium Nitride Composite CMOS-MEMS CMUT for Biomedical Ultrasounds Sheng-Shian Li, Tzu-Hsuan Hsu National Tsing Hua University *PF15: MEMS Surface Coating Condition Monitoring via Nonlinear Tapping of Resoswitches Wei-Chang Li, Shi-Chuan Lu, Wun-Ruei Du National Taiwan University *PF16: Frequency Doubling in Wirelessly Actuated Multiferroic MEMS Cantilevers Sidhant Tiwari, Max Ho, Robert Candler UCLA WP30: Thermal Piezoresistive Resonant Mass Balance Implemented in a Standard CMOS Process Amin Abbasalipour, Varun Kumar, Siavash Pourkamali University of Texas at Dallas WP31: Coupled Nonlinear MEMS Resonators for Sensing Milind Pandit, Chun Zhao, Guillermo Sobreviela, Arif Mustafazade, Ashwin Seshia University of Cambridge WP32: Increased Output-Pressure PMUTs with a Sloped Profile Fabricated via Surface Micromachining Guo-Lun Luo, Qi Wang, Yuri Kusano, David Horsley University of California, Davis

48

WP33: A Proposal for Absolute Inertial Imaging using Two Mechanical Modes Adarsh Ganesan, Ashwin Seshia University of Cambridge WP34: Nanomechanical Disk Resonator-on-Membrane with Pico-Meter Deflection Resolution Vahid Qaradaghi, Alireza Ramezani, Mohammad Mahdavi, Siavash Pourkamali UTD WP35: A Resonant MEMS Accelerometer Utilizing AC Polarization Chun Zhao1, Guillermo Sobreviela1, Milind Pandit1, Arif Mustafazade1, Sijun Du1, Xudong Zou2, Ashwin Seshia1 University of Cambridge1, State Key Laboratory of Transducer Technology, Institute of Electronics, Chinese Academy of Sciences2

WP36: SAW sensor with HFM reflectors Victor Plessky1, Aleksey Shimko2, You Jen Cho2, Rimantas Miskinis3, Dmitrij Smirnov3 GVR Trade SA1, Tai-SAW2, FTMC3 WP37: Retrieve the material related parameters from a self-mixing signal using wavelet transform Yanguang Yu, Fei Xia, Yuxi Ruan, Jiangtao Xi, Qinghua Guo, Jun Tong University of Wollongong

Session I: Timekeeping, Time & Frequency Transfer, GNSS Applications Session Chair: Josh Savory, NIST *PF17: Investigation into a GPS time pulse radiator for testing time-stamp accuracy of a radio telescope Zwivhuya Ramudzuli, Thomas David Abbott SKA SA *PF18: ACES-Pharao test of the gravitational redshift: Refined estimation of the expected sensitivity Etienne Savalle1, Christine Guerlin1, 2, Frédéric Meynadier1, Pacôme Delva1, Christophe Le Poncin-Lafitte1, Philippe Laurent1, Peter Wolf1 SYRTE1, Laboratoire Kastler Brossel2 *PF19: First Field Trial of the Frequency Transfer System with Passive Stabilization Scheme Song Yu1, Chenxia Liu1, Tianwei Jiang1, Ruihuan Wu1, Dongxing Wang1, Jingxi Liang1, Xing Chen1, Yaojun Qiao1 Beijing University of Posts and Telecommunications1 *PF20: Nonlinear Interaction between Neighboring Data Channels and a Frequency Signal in a Commercial Optical Fiber Communication System Patrick Sykes, Chaoran Tu, Curtis Menyuk UMBC WP38: Satellite-induced Code Bias Variation effects in BDS time transfer Qin Weijin, Ge Yulong, Wu Wenjun, Yang Xuhai NTSC, CAS WP39: BDS PPP Time Transfer at NTSC Jihai Zhang, Wei Guang, Wenjun Wu, Shanhe Wang, Wei Li, Haibo Yuan, Shaowu Dong National Time Service Center, Chinese Academy of Sciences

49

WP40: The test on CAPS experimental system time transfer Wu Feng National Time Service Center, Chinese Academy of Sciences WP41: Time Transfer and Calibration in EMI Sensitive Environment Romeo Gamatham1, Renier Siebrits1, Johan Burger1, Grant Adams1, Thomas Abbott1, Francois Kapp1, Siyabulela Tshongweni1, Braam Otto1, Carel Van der Merwe1, Nontobeko Mnyandu1, Chris Matthee2 South African Radio Astronomy Observatory1, National Metrology Institute of South Africa2 WP42: Identifying metrics and their attributes for ensuring the integrity of GPS signals Bijunath Patla, Neil Ashby, Stefania Romisch NIST WP43: A method of obtaining high precision propagation delay for BPL timing signal Yun Li1, Yu Hua2, Baorong Yan2, Wei Guo2 National Time Service Center, University of the Chinese Academy of Sciences1, National Time Service Center /Key Lab of Precision Navigation and Timing Technology, Chinese Academy of Sciences2 WP44: Research of digital satellite TV differential timing method Shanhe Wang1, Yu Xiang1, Yu Hua1, Jun Ju2, Weicheng Xue2 National Time Service Center 1, Jiangsu Broadcasting Corporation2 WP45: The influence of solar flare on low frequency time-code timing signal Wang Xin, Li Xiaohui, Feng Ping, Li Wei National Time Service Center, University of Chinese Academy of Sciences WP46: High performance Timing synchronisation for industrial logic level control utilising low cost miniature single board computer with EMC compliance Grant Adams, Renier Siebrits, Johan Burger, Etienne Bauermeister, Sias Malan, Francois Kapp, Luyanda Buyana, Nontobeko Mnyandu, Siyabulela Tshongweni, Braam Otto, Carel Van der Merwe, Marc Welz, Robin van Wyk South African Radio Astronomy Observatory

Session I: Optical Frequency Standards and Combs Session Chair: David Leibrandt, NIST *PF21: Detailed Characteristics and Cavity Stabilization of Dual-wavelength Good-bad Cavity Active Optical Clock Duo Pan, Tiantian Shi, Jingbiao Chen Peking University *PF22: Spectral Purity Transfer for High Performance Strontium Lattice Clocks Michele Giunta1, 2, Wolfgang Hänsel2, Matthias Lezius2, Marc Fischer2, Ronald Holzwarth1,

2, Erik Benkler3, Dan Matei3, Thomas Legero3, Uwe Sterr3 Max Planck Institute for Quantum Optics1, Menlo Systems GmbH2, Physicalisch-Technische Bundesanstalt3 *PF23: Silicon cavity at 4 Kelvin with thermal noise limited performance John Robinson, Eric Oelker, Wei Zhang, Lindsay Sonderhouse, Will Milner, John Hall, Christian Sanner, Jun Ye, Dan Matei, Thomas Legero, Fritz Riehle, Uwe Sterr JILA, University of Colorado at Boulder

50

*PF24: Frequency comparison of two ytterbium optical lattice clocks at NIST with low 10-18 level uncertainty Xiaogang Zhang1, 2, William McGrew1, 2, Stefan Schaeffer1, 2, Kyle Beloy1, Robert Fasano1, 2, Daniele Nicolodi1, Roger Brown1, Richard Fox1, Andrew Ludlow1 National Institute of Standards and Technology1, State Key Laboratory of Advanced Optical Communication Systems and Networks, School of Electronics Engineering and Computer Science, Peking University, Beijing, China2, Department of Physics, University of Colorado, Boulder, Colorado, USA3, Neils Bohr Institute, University of Copenhagen, Copenhagen, Denmark4 WP47: Towards a quantum logic 27Al+ ion optical clock Ke Deng, Hongli Liu, Zetian Xu, Huang Che, Wenhao Yuan, Jie Zhang, Zehuang Lu Huazhong University of Science and Technology WP48: Preliminary progress in the development of an operational calcium thermal beam clock at the U. S. Naval Observatory Bryan Hemingway, Jennifer Taylor, Thomas Swanson, Steven Peil United States Naval Observatory WP49: Microwave Frequency Generation Using a Non-Octave-Spanning Optical Frequency Comb James Cahill1, Weimin Zhou1, Curtis Menyuk2 US Army Research Laboratory1, UMBC2 WP50: Design and characterization of ion traps for 27Al+ quantum-logic clocks Aaron Hankin1, Ethan Clements1, 2, Samuel Brewer1, Jwo-Sy Chen1, 2, David Hume1, Chin-wen Chou1, David Wineland1, 2, David Leibrandt1, 2 National Institute of Standards and Technology1, University of Colorado2 WP51: Supercontinuum generation of highly nonlinear fibers pumped by 1.56um laser solitons Songtao Fan1, 2, Yanyan Zhang2, Lulu Yan2, Wenge Guo2, Xiaofei Zhang2, Shougang Zhang2, Haifeng Jiang2 National Time Service Center, Chinese Academy of Sciences1, National Time Service Center2 WP52: Precise control of amplitude to phase noise conversion by biasing photo-detector for microwave generation with ultra-fast optical pulses Tang Li, Junchao Huang, Lingke Wang, Yifei Duan, Liang Liu Shanghai institute of optics and fine mechanics, Chinese academy of Sciences WP53: All polarization-maintaining fiber laser for femtosecond pulse generation at NTSC Pan Zhang, Yanyan Zhang, Lulu Yan, Bingjie Rao, Wenyu Zhao, Shougang Zhang, Haifeng Jiang National Time Service Center WP54: Realization of Closed-Loop Operation of Optical Lattice Clock Based on 87Sr at NTSC Hong Chang, Yebing Wang, Dehuan Kong, Mojuan Yin, Qinfang Xu, Benquan Lu, Yang Guo, Jie Ren National Time Service Center, Chinese Academy of Sciences WP55: Route to a Portable Optical Clock Yeshpal Singh1, Sruthi Viswam1, Jonathan Bass1, Marco Menchetti2, Qasim Obaid1, Jonathan Jones1, David Morris1, Peter Molony1, Markus Gellesch1, Matthew Aldous1, Kai Bongs1 University of Birmingham1, Birmingham2

51

WP56: Direct Selection and Amplification of An Optical Frequency Comb via Injection Locking for Second Cooling Laser of Strontium Optical Clock Hong Chang, Qinfang Xu, Mojuan Yin, Dehuan Kong, Yebing Wang, Benquan Lu, Yang Guo National Time Service Center (NTSC), The Chinese Academy of Sciences (CAS) WP57: A compact design of a transportable Calcium optical frequency standard Renfu Yang, Xiaobo Xue, Zhenwei Zhang, Xu Zhang, Huan Zhao, Nuanrang Wang, Xing Chen, Li Zhang, Deng Liu Beijing Institute of Radio Metrology and Measurement 15:30 – 17:30 Exhibitor’s Event Grand Sierra AB 19:00 – 21:00 Rump Session Pavilion

52

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55

THURSDAY POSTER SESSIONS 13:00 – 15:00 Grand Sierra D/Prefunction Session II: Resonator Devices and Materials Session Chair: Max Zeng-Hui Wang, University of Electronic Science and Technology of China ThP01: Polarization Sensitive Black Phosphorus Nanomechanical Resonators Philip Feng, Arnob Islam, Anno van den Akker Case Western Reserve University ThP02: Metallization Design Investigations for Graphene as a Virtually Massless Electrode Material for 2.1 GHz Solidly Mounted (BAW-SMR) Resonators Marius Knapp1, Volker Cimalla1, Vadim Lebedev1, Oliver Ambacher1, 2 Fraunhofer IAF1, Department of Sustainable Systems Engineering, University of Freiburg2 ThP03: Effective Surface Enhancement of Nanomechanical Disk Resonators Using CNT for Mass Sensing Applications Vahid Qaradaghi, Behnoush Dousti, Ye Choi, Gil Sik Lee, Siavash Pourkamali UTD ThP04: Suspended Frame Structure with Phononic Crystals for Anchor Loss Reduction of MEMS Resonator Fei-Hong Bao1, Lei-Lei Bao2, Mohammed Awad1, Xin-Yi Li1, Zhao-Hui Wu1, Jing-Fu Bao1, Xiao-Sheng Zhang1 University of Electronic Science and Technology of China1, The University of Tokyo2 ThP05: High kt

2.Q Waveguide-Based ScAlN-on-Si UHF and SHF Resonators Roozbeh Tabrizian1, Mayur Ghatge1, Valeriy Felmetsger2 University of Florida1, OEM Group LLC2 ThP06: Nanoelectromechanical Resonators Enabled by Si-Doped Semiconducting β-Ga2O3 Nanobelts Philip Feng1, Xuqian Zheng1, Jaesung Lee1, Subrina Rafique2, Hongping Zhao2 Case Western Reserve University1, The Ohio State University2 ThP07: A Novel Multiple-Frequency RF-MEMS Resonator with Optimized Electrode Design Jinling Yang, Xiao Kan, Zeji Chen, Quan Yuan, Fengxiang Wang, Fuhua Yang Institute of Semiconductors, CAS ThP08: The “hiccup” SAW resonators on strong piezoelectric substrates Victor Plessky1, Filip Iliev2, Julius Koskela1 GVR Trade SA1, Resonant Inc.2 ThP09: Magnetostrictive-based Quartz MEMS RF Sensors Randall Kubena1, Xiangnan Pang2, Yook-Kong Yong2, Walter Wall1, Richard Joyce1 HRL Labs1, Rutgers University2 ThP10: Strain Transfer and Creep in All-Quartz Packaged SAW Strain Sensors Victor Kalinin, Arthur Leigh, Aidrian Nowell, Clarence Pilgrim Transense Technologies plc

56

Session II: Measurements, Synthesis, and OEOs Session Chair: Craig Nelson, NIST ThP11: Effect of Local Oscillator Performance on UWB Based Indoor Localization System Archita Hati, Fabio daSilva, Vladislav Gerginov, Craig Nelson NIST ThP12: Effects of electronic frequency dividers on angle modulated signals and their potential applications in frequency analysis Dipen Barot, Lingze Duan Univ.Of Alabama in Huntsville ThP14: A Low SWaP-C prototype Ka-band Frequency Synthesizer for Atomic Clocks Lin Yi1, Michael Toennies2, Eric Burt1, Robert Tjoelker1 Jet Propulsion Laboratory1, University of Michigan2 ThP15: Phase noise measurement of RF devices using full digital phase noise measurement method Takeshi Imaike, Kazuya Kouchi Nihon University ThP16: SDR Measurement of Phase and Noise and Frequency Shifts for Enhanced Dynamic Range without Random Spurs or Spectrum Collapse Michael Underhill Underhill Research Limited ThP17: A Physical Sine-to-Square Converter Noise Model Attila Kinali Max-Planck Institute for Informatics ThP18: Highly Stable and Low Phase Noise 10 GHz RF Signal Generation Based on a Sub-Harmonic Injection Locked Optoelectronic Oscillator Huanfa Peng, Huayang Du, Rui Guo, Yongchi Xu, Cheng Zhang, Jingbiao Chen, Zhangyuan Chen Peking University ThP19: Filter optimization for real time digital processing of radiofrequency signals: application to oscillator metrology Jean-Michel Friedt, Arthur Hugeat, Julien Bernard, Gwenhael Goavec-Merou, Pierre-Yves Bourgeois FEMTO-ST ThP20: Low Phase Noise 20 GHz Microwave Frequency Divider Based on a Super-Harmonic Injection Locked Optoelectronic Oscillator Huanfa Peng, Rui Guo, Huayang Du, Yongchi Xu, Cheng Zhang, Jingbiao Chen, Zhangyuan Chen Peking University ThP21: Forced Opto-electronic Oscillators Using Efficient PBG Based Phase Modulators Francis Pantano1, Kai Wei1, Siddhesh Jagdale1, Tianchi Sun1, Afshin Daryoush1, Ajay Poddar2, Ulrich Rohde2 Drexel University1, Synergy Microwave Corp.2

57

Session II: Vapor-Cell Clocks and Applications Session Chair: Fang Fang, NIM ThP22: Study of quantitative calculation of CPT resonances considering Zeeman sub-levels of Cs-D1 line Yuichiro Yano1, Kenji Matsuda2, Shigeyoshi Goka3, Masatoshi Kajita1 National Institute of Information and Communication Technology1, Murata Manufacturing Co., Ltd.2, Tokyo Metropolitan University3 ThP23: Coherent Population Trapping Atomic Clock by Phase Modulation to Utilize a 3.5 GHz-band-FBAR VCO Yuichiro Yano, Motoaki Hara, Masatoshi Kajita, Tetsuya Ido National Institute of Information and Communications Technology ThP24: Progress in Suppressing Dick Effect in the Ramsey-CPT Atomic Clock by Interleaving Lock Jianwei Zhang1, Pengfei Cheng1, Xiaolin Sun1, Jianhui Tu2, Zhaoquan Wang2, Jingzhong Cui2, Lijun Wang1 Tsinghua University1, Lanzhou Institute of Physics2 ThP25: New Progress towards Chip-Scale Atomic Clock in Peking University Jianye Zhao, Ping Guo, Haoyuan Lu, Ruiyuan Liu, Hongling Meng, Chaoquan Wang, Dayong Chen Peking University ThP27: Alkali Metal Dispenser Utilizing Scalloped Silicon Groove for Microfabricated Vapor Cells Yoshikazu Hirai, Katsuo Nakamura, Yuichi Kimoto, Toshiyuki Tsuchiya, Osamu Tabata Kyoto University ThP28: The 2nd-Harmonic Signal in the Rb Atomic Clock for “Status-of-Health” Monitoring Andrew Hudson, James Camparo The Aerospace Corporation ThP29: Development of a Next-Generation Integrated Photonics Chip-Scale Atomic Clock Zachary Warren, Adam Scofield, Pavel Ionov, Travis Driskell, Andrew Stapleton, James Camparo The Aerospace Corporation

Session II: Sensors and Transducers Session Chair: Fabien Josse, Marquette University ThP32: Method for measuring the properties of liquid by a single QCM at different temperatures Shuang Liao, Peng Ye, Feng Tan University of Electronic Science and Technology of China ThP33: Probing Ion Radiation Effects in Si Crystals by 3D Integrated Resonating Thin Diaphragms Philip Feng1, Hailong Chen1, Hao Jia1, Vida Pashaei1, Wenjun Liao2, Charles Arutt2, Michael McCurdy2, Robert Reed2, Donald Schrimpf2, Peter Hung3, Michael Alles2 Case Western Reserve University1, Vanderbilt University2, The Aerospace Corporation3

58

ThP34: Stress Generation in Terfenol-D using HBAR for NV Center Based Hybrid Sensor Kasturi Saha, Ashlesha Patil Indian Institute of Technology Bombay ThP35: AlN/ZnO/LiNbO3 as a promising multilayered structure for RFID WLAW sensors Cécile Floer1, Sami Hage-Ali1, Omar Elmazria1, Pascal Nicolay2, Sergei Zhgoon3, Natalya Naumenko4 Université de Lorraine - CNRS1, Carinthian Tech Research CTR AG2, National Research University "MPEI"3, National University of Science and Technology "MISIS"4 ThP36: Compact Atomic Magnetometer for Global Navigation (NAV-CAM) Michael Larsen, Dennis Bevan, Michael Bulatowicz, Philip Clark, Robert Griffith, Marta Luengo-Kovac, James Pavell Northrop Grumman ThP37: Scalar differential equations for transversely varying thickness modes in doubly-rotated quartz crystal sensors Haifeng Zhang1, Huijing He1, Jiashi Yang2, John Kosinski3 University of North Texas1, University of Nebraska-Lincoln2, MacAulay-Brown Inc.3 Session II: Timekeeping, Time & Frequency Transfer, GNSS Applications Session Chair: Aimin Zhang, NIM ThP38: High Precision Time Transfer Using Low Cost Optical Transceiver Module Jie Zhang1, Zhonghua Li Institute of Geodesy and Geophysics. Chinese Academy of Sciences ThP39: Accurate Signal Transmission Delay Measurement in Optical Fibers with Self-Calibration Configuration Bo Wang, Hongwei Si, Jingwen Dong, Yani Zuo, Lijun Wang Tsinghua University ThP40: Microwave frequency dissemination at NTSC Cuichen Zhao, Wenyu Zhao, Lulu Yan, Yanyan Zhang, Wenge Guo, Shougang Zhang, Haifeng Jiang National Time Service Center ThP43: White Rabbit-Based Time Distribution at NIST Joshua Savory, Jeff Sherman, Stefania Romisch National Institute of Standards and Technology ThP44: A Novel high resolution optical time delay cable measurement system utilized in fibre verification in radio interferometer Roufurd Julie, Thomas Abbott, Manny Padayachee, Lufuno Mafhungo, Renier Siebrits, Johan Burger Square Kilometer Array Africa ThP46: The J2 Relativist Periodic Component of GNSS Satellite Clocks Valerio Formichella Istituto Nazionale di Ricerca Metrologica ThP47: Improvements to the averaged time scale of Mexico to predict UTC Eduardo de Carlos Lopez Centro Nacional de Metrologia

59

Session II: Advanced Optical Oscillators and Techniques Session Chair: Nan Yu, NASA ThP48: Study on the effect of shock acceleration on the ultra-stable optical cavity for space applications Guanjun Xu, Linbo Zhang, Long Chen, Jun Liu, Tao Liu National Time Service Center ThP49: Development of Ultra-Stable Rb-referenced 420nm Optical Frequency Standard Jingbiao Chen, Shengnan Zhang Peking University ThP50: Referencing an Ultra-Stable Laser to D2 line of 133Cs using Modulated and Unmodulated Spectroscopy Carlos Ortiz1, Eduardo De Carlos1, Mauricio Lopez2 CENAM1, Cinvestav2 ThP51: Ultra-stable optical oscillator transfer for precise UV spectroscopy Pablo Cancio Pastor1, Alessia Sorgi1, Roberto Eramo1, Cecilia Clivati2 INO-CNR and LENS1, INRIM2 ThP52: The Lasing Realization of Rb Four-level Active Optical Clock JingBiao Chen, Pengyuan Chang Peking University ThP53: A Compact Pumping Laser at 459 nm with 10-15 Stability for Cs Four-level Active Optical Clock Jingbiao Chen, Tiantian Shi, Duo Pan, Shengnan Zhang, Haosen Shang Peking University ThP54: Development of Space-borne Narrow Linewidth Laser for Sr Optical Clock Jun Liu, Tao Liu, Guan Xu, Lin Zhang, Long Chen, Chen Jiang, Xiu Zhang, Rui Dong National Time Service Center, Chinese Academy of Sciences ThP55: A Cold-Atom Optical Frequency Standard for Optical Fiber Communication by using an Erbium-fiber-based Frequency Comb Jianye Zhao, Haoyuan Lu, Jianxiao Leng, Ping Guo, Jianhui Tu, Dayong Chen Peking University ThP56: Phase locking of diode lasers Stephan Falke, Stefan Baumgärtner, Manfred Hager, Christoph Raab, Stephan Ritter TOPTICA Photonics AG ThP57: Towards a Spaceborne Automatic Laser Frequency Identification and Control System Yingxin Luo1, Hongyin Li2, Hsien-Chi Yeh1 TianQin Research Center for Gravitational Physics, Sun Yat-sen University1, Center for Gravitational Experiments, Huazhong University of Science and Technology2 ThP58: Portable Lasers With 10-16 Frequency Instability Yanyi Jiang, Xueyan Li, Yuan Yao, Zhiyi Bi, Longsheng Ma East China Normal University

14:30 – 15:30 Women in Engineering Reception Montagna’s Restaurant

60

THU

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M

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ng L

i, Sh

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Uni

vers

ity

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mpa

rison

of T

wo

All-D

igita

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quen

cy

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with

a Ji

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Circ

uit

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aris

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tas,

Nik

os T

emen

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aul P

eter

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dis

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atio

nal T

echn

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Uni

vers

ity o

f Ath

ens

Pu

lsed

Opt

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ly P

umpe

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Clo

ck: L

abor

ator

y Pr

otot

ype

at V

NIIF

TRI

Vi

ache

slav

Bary

shev

, Mik

hail

Aley

niko

v, G

eorg

iy

Osip

enko

, Igo

r Blin

ov, S

erge

y Do

nche

nko

FG

UP

VNIIF

TRI

62

POSTER LAYOUTS - WEDNESDAY Posters are located in Grand Sierra D and the Prefunction Area. Use the prefix number registered with the poster paper in the previous program pages to locate the poster in the following layout. Posters should only be placed throughout their presentation day, and then they should be removed. Grand Sierra D

Prefunction

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POSTER LAYOUTS - THURSDAY Grand Sierra D

Prefunction

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RESORT FLOORPLAN

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(Downstairs)

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