MT22 Booklet

MT-22 2011 Marseille France 1

MT-22 2011 Marseille France2


CONTENTS

1- Schedule 4

2- Welcome 5

3- Committees 6

4- Contacts 7

5- Guidelines for paper submission 8

6- Publication room 8

7- Guidelines for presentations 8

8- Internet 11

9- Registration information 11

10 - Conference events 12

11 - Local information 16

12 - Additional information 17

13 - Transportation 18

14 - Exhibitors list 20

15 - Exhibitors & Sponsors 21

16 - Exhibition map 37

17 - Technical program detail 39

18 - Author index 81


1- SC HEDU L E

The 22nd International Conference on Magnet Technology (MT-22) is the major international forum for scientists and engineers to present and discuss the latest research results, ideas and developments in all areas of magnet technologies and their applications.

The MT-22 Conference celebrate this year the 100 years anniversary of the discovery of superconductivity and also 50 years of applied superconductivity.

The conference topics include: magnets for accelerators and detectors, fusion magnets; high �eld magnets, NMR, medical and biological applications, permanent magnets, pulsed magnets, transportation, power and space applications, materials and conductors, heat transfer, stability and protection, design, analysis, measurements and instrumentation. Special presentations discuss the impact of new magnet technologies in leading areas of science and industry.

Plenary talk PT1 Monday, 12 S eptember 20119:15-10:00 AuditoriumOsamu Motojima : ITER Director General“The ITER project”

Plenary talk PT2 Tuesday, 13 S eptember 20118: 30 - 9:15 AuditoriumMartin Wilson: Consultant“100 years of superconductivity and 50 years of applied superconductivity”

Plenary talk PT3 Tuesday, 13 S eptember 20119:15 - 10:00 AuditoriumMinwon Park: Changwon National University from Korea“Current status of HTS power applications after 100 years of superconductivity”

Plenary talk PT4 Wednesday, 14 S eptember 20118: 30 - 9:15 AuditoriumDenis Le Bihan: CEA, Director of Neurospin, Member of the French Science Academy“Progress and expectations in MRI: The magnetic brain”

Plenary talk PT5 Thursday, 15 S eptember 20118:00 - 8:45 AuditoriumDavid Larbalestier: US National High Field Magnet Laboratory, Chief Materials Scientist“New HTS materials for future magnet applications”

Plenary talk PT6 Thursday, 15 S eptember 20118:45 - 9: 30 AuditoriumKakurai Kazuhisa: Quantum Beam Science Directorate, Japan Atomic Energy Agency (JAEA)“High magnetic �eld for material science”

Plenary talk PT7 Friday, 16 S eptember 201111:00 - 11:45 AuditoriumLyn Evans: Project Leader of the Large Hadron Collider (CERN)“LHC commissioning and performance”


2- WE LC OME

Dear colleagues,

On behalf of the international organizing committee, it’s my pleasure to invite you to the 22nd Magnet Technology Conference, held in Marseille, France from 11-16 September 2011 at the Parc Chanot congress center.

In the four decades since the MT conference began, we have witnessed enormous gains in both the performance and applications of permanent, resistive, pulsed, hybrid, and superconducting magnets. The advancements made by the scientists and engineers that comprise our technical community have enabled magnets to play a key role in �elds as diverse as medical imaging, low-temperature physics, pharmaceutical R&D, high energy particle physics, and nuclear fusion projects such as ITER.

Papers accepted after peer review will be published in the IEEE Transactions on Applied Superconductivity, a leading scienti�c journal on magnet and superconducting technologies.

In parallel, a Scienti�c and Industrial Exhibition will bring together industry, research laboratories and institutions active in magnet technology. Companies and research institutes are invited to this forum to display their activities and latest developments.

Marseille is a vibrant and beautiful city in the south of France, only 80 km from the construction site of the ITER Organization, one of the world’s most ambitious magnet technology projects to ever be undertaken. Our schedule for the week will allow you and your guests to explore both the city and the ITER site, and we are proud to be able to host this conference and o�er the best of Provence to our colleagues world-wide.

Neil MitchellMT-22 Conference Chair


3- COMMITTEES

International Organizing Committee (IOC) Neil Mitchell - Chair Carlos Baldan Elwyn Baynham Pierluigi Bruzzone Gueesoo Cha George Clark Sergei Egorov Luis Garcia-Tabares Zdenek Janu Francois Kircher Risto Mikkonen Riccardo Musenich Mathias Noe Kiyoshi Okuno Milan Polak Subrata Pradhan Bruce P. Strauss Lucio Rossi Herman ten Kate Liye Xiao

Local Organizing Committee (LOC) Paul Libeyre - Chair Gregory Bevillard Arnaud Devred Cécile Foucher de Brandois Matthew Jewell Cesar Luongo Philippe Mousset Ian Pong

Scientific and Program Committee (SPC) Jean-Luc Duchateau - Chair Luca Bottura Marco Breschi Christian-Eric Bruzek Pierluigi Bruzzone Daniel Ciazynski François Debray Arnaud Devred Reinhard Heller Matthew Jewell Tsukasa Kioshi François Kircher Norikiyo Koizumi Florence Lecouturier Xianhong Liu Cesar Luongo Neil Mitchell Tatsushi Nakamoto Arend Nijhius Mathias Noe Subrata Pradhan Gis de Rijk Gian Lucca Sabbi Justin Schwartz Pascal Tixador Pierre Vedrine Vitaly Vysotsky Liye Xiao

Industrial Liaison Committee (ILC) François Kircher (CEA) - Chair

Conference Organizers International Organizing Committee Chair: Neil Mitchell Scientific Program Committee Chair: Jean-Luc Duchateau Local Organizing Committee Chair: Paul Libeyre Industrial Liaison Committee Chair: François Kircher


4- CONTACTS

Scientific Secretary Dr Jean-Luc Duchateau CEA, IRFM STEP CEA Cadarache 13108 Saint Paul lez Durance cedex, France Tel: +33 4 42 25 49 67 Fax: +33 4 42 25 26 61 E-mail: [email protected]

Scientific & Industrial Exhibition Chairman Dr François Kircher CEA, IRFU, SACM, PC 11 CEA Saclay 91191 Gif sur Yvette cedex, France Tel: +33 1 69 08 25 88 Fax: +33 1 69 08 69 29 E-mail: [email protected]

Administrative Secretary Cécile Foucher de Brandois Tokamak Department / Magnet Division ITER Organization Route de Vinon sur Verdon 13115 Saint Paul lez Durance, France Tel: +33 4 42 17 69 04 Fax: +33 4 42 17 89 00 E-mail: [email protected]

Logistics Secretariat Atout Organisation Science / MT-22 2011 Village d’Entreprises Saint-Henri Rue Anne Gacon - Bât 24 13016 Marseille - France Fax: +33 (0)4 96 15 12 51 E-mail: [email protected]

Website: http://www.mt22.org


5- GU IDE LI NES F OR PAP E R SUB MISS IONThe MT-22 organizers are pleased to partner with the IEEE Council on Superconductivity to publish the peer-reviewed papers of the conference in the IEEE Transactions on Applied Superconductivity. This partnership continues a solid tradition of maintaining the contributions of the conference participants in an archival, peer-reviewed, fully indexed and searchable journal.

Additionally, the IEEE CSC has agreed to make available on DVD the full proceedings and other published materials of all previous MT conferences, from its inception in the 1960s through the 2009 MT-21 conference held in Hefei, China. All conference participants will receive this complimentary DVD upon arriving at the conference center in Marseille.

In order to make scienti�c information regarding the MT-22 conference available very rapidly, oral presentations will be available on line just after the Conference for participants only.

Instructions for authors

Manuscripts submitted at MT-22 will be peer-reviewed and, after acceptance, published in a special issue of the IEEETransactions on Applied Superconductivity . Manuscripts will be submitted electronically using the IEEE ScolarOne software, via a link provided on the MT-22 web site www.mt22.org. The manuscript submission deadline is 1 3 September 2011 and is �rm. A limited number of computers will be made available at the conference location for uploading of papers from 11-1 3 September 2011.

Manuscripts associated with a submitted oral or poster presentation are limited to four pages. Extra pages above the limit will be charged at 150euros/page, payable at the registration desk on-site before the paper is submitted. Manuscripts for an invited oral are limited to six pages, and those for a plenary are limited to twelve pages. The format of the paper must follow the IEEE Transactions guidelines.

In order to submit the manuscript, the paper must �rst have been presented in an oral or poster session (poster authors must attend their session), and be accompanied by a publication voucher code. Each conference participant is given a voucher code at time of conference registration, and the participant must be an author on the paper for which the code is being used. Submission of a second paper must be accompanied by an additional full registration fee.

6- PUB LICA T ION R OO MBoth the publications o�ce and the manuscript upload room are located in the “Salle MORGIOU” on the �rst �oor of Palais des Congrès Parc Chanot.

Hours of operation

• Sunday, 11 September: 17:00 – 20:00

• Monday, 12 September: 8:00 – 18:00

• Tuesday, 1 3 September: 8:00 – 18:00

• Wednesday, 14 September: 8:00 – 1 3:00

• Thursday, 15 September: 8:00 – 17:00

• Friday, 16 September: 8:00 – 10:00

Managing editor

Centennial Conferences

[email protected] m

7- GU IDE LI NES F OR PR ESENT AT IONS

Oral presentations

Plenary session will take place in the auditorium. Oral parallel sessions will take place in the auditorium, Callelongue room and Endoume room.This document describes how to create presentations in an accepted format and the procedure to follow during the Conference.


Recommendations to speakers: • Make a new directory in which all files relating to your presentation are saved.• Save in the permitted file formats.• Save related pictures, videos, tables as supplementary file(s) in the directory.• Save the complete list on a data carrier. • Please use window's standard fonts, to prevent problems during conversion.

Technical requirementsSupported media for transferring the presentations:• USB storage device• DVDROM• CDROM

Computer configuration:• Windows XP• Microsoft Office 2007 SP1 or older version• Windows Media Player 11 or older version• Optimal performance of presentations created on other software cannot be guaranteed.

Supported file formats:

Types Description

Presentations

Supported presentations

PowerPoint (PPT, PPTX)

Word (DOC, DOCX)

Excel (XLS, XLSX)

MS Office 2007 or older version

PDF

OpenOffice 2.4

Videos

WMV, AVI, MPG formats should be used

We recommend to save the external files of your presentation in the same folder as your presentation

QuickTime (.MOV) files should not be used

PicturesCommon Windows format (BMP, JPG, JPEG…) are supported

TIFF (MACINTOSH format) is not supported

Fonts Western Europe characters are supported

Mac computers will not be available in any of the presentation rooms. Authors using a Mac platform will need to ensure that their files are compatibly with the PC environment. Optimal performance of presentations created in other formats cannot be guaranteed.

For performance reasons, the total size of your presentation and associated external files must not exceed 1,5 Gbytes.

In the preview room

Speakers must upload their presentation files the day before their scheduled presentation. Otherwise, we cannot guarantee the correct display.

The preview room is located in the “Salle Sormiou” of the Parc Chanot and is open according to the following schedule:



• Tuesday, 13 September: 8:00 – 18:00

• Wednesday, 14 September: 8:00 – 12:00



We cannot accept presentations delivered to the meeting room directly (without previewing).


Coffee breaks and midday are the busiest times in the preview room, so please plan accordingly.

Preview technical staff will guide and assist the speakers for checking and uploading their presentation files.

A training computer will be available in order to help the speakers to use and be comfortable with the preview software and equipment in the conference room.

In conference rooms

The equipment in the conference rooms is exactly the same as in the preview room.

The files downloaded in the preview room are automatically backed up and transferred without any changes to the conference room.

A volunteer is available both before and during the presentation in the conference room, to assist the speakers if required.

In the conference room, the following equipment is available:

• 1 video projector

• 1 computer with a mouse

• 1 or more control monitor

• 1 laser pointer

Availability of presentations after the conference

Oral presentations made at MT-22 will be posted on the conference web site at the end of the conference week, subject to the agreement of the presenting authors.

Presenting tips

When standing at the lectern, face the microphone (and your audience) and talk normally. The microphone is designed to pick up your voice without you having to lean in to it.

The lectern will be positioned to one side of the stage and angled allowing you to refer to your presentation without turning away from the audience. If you are turning to look at the screen take a slight step to the side (away from the screen) and this will help you maintain a good position in front of the microphones.

Speak slowly so that you can be heard clearly. Good presenters often say that they feel they are talking too slowly. This overcomes everyone’s natural tendency to talk quickly when nervous or in front of a large group.

Try to keep your head up and look at the audience sitting at the back of your room. This will make you more engaging to your audience.

Please leave time for questions; 2-3 minutes for a contributed oral and 5-6 minutes for an invited oral.

Poster presentations

Orientation and size of poster boards:

Orientation: Boards used for MT-22 allow layout in landscape mode.

Dimensions: Useful width: 120 cm. Useful height: 80 cm (A0).

Fixation: pins will be provided and a sufficient amount will be left on each poster board. NO double-sided tape, blue tak, cellotape or other means of attachment are permitted. If any other attachment method is used other than the pins provided, then the presenting author will be liable to a charge for the damaged poster board.

Posters should be printed on a single large sheet of paper if possible, though multiple sheets are permitted if no large-format printer is available to the authors. It is not permitted to simply post the pages of your manuscript, and such presentations will be marked as non-attending by the session chairs.

Poster sessions:

Your poster(s) will be presented in one of the four sessions, on Monday afternoon, on Tuesday afternoon, on Wednesday morning, or on Thursday afternoon. Posters should be on display during the full session time. All posters should be removed at the end of each day to avoid loss.

One author (the poster presenter) should be present during the full session time to allow an exchange of ideas with the participants and answer questions.

The location of your poster will be given by a poster board number, which will be found in the conference program booklet.


Displays including tables, chairs, laptops and other equipment are not permitted.

Conference Language

The official language of the conference is English.

8- INTERNET

Wireless internet will be available at the conference venue, on levels 0 and 1.

A limited number of computers will be available for your use on level 0. These computers are intended for checking e-mail correspondence only. Please limit your use to 10 minutes if people are waiting.

9- REGISTRATION INFORMATION

Registration materials and name badges are available at the Conference Registration Desk. The Registration Desk is located at the main entrance of Palais des Congrès Parc Chanot.

If you pre-registered and have paid the registration fee, please pick up your registration materials at the “Pre-Registered” Desk.

If you didn’t Pre-register or have an amount due status, please register at the “On-Site Registration” Desk.

The Conference Reception Desk is open according to the following schedule:



• Tuesday, 13 September: 8:00 – 18:00

• Wednesday, 14 September: 8:00 – 12:00



Conference fee must be paid at the time of registration, in Euros only.

Conference registration (except for accompanying persons) includes:

• Access to all sessions of the Scientific Program

• Admission to one technical visit

• Access to the Scientific and Industrial Exhibition

• Admission to the entire Social Program (Welcome Reception, Exhibition Reception, Conference Dinner)

• One copy of the conference publication, which includes all papers submitted to the Conference and peer-reviewed by IEEE

• Coffee break refreshments

• Submission of one four-page paper for the conference publication provided the abstract has been previously accepted

Registration fee After 15 July 2011Full conference registration 750 EurosStudent registration 450 EurosRetired participants 200 EurosSingle-day registration* 200 Euros

*Single-day registration does not include a copy of the conference publication nor the participation in social events (reception, dinner, etc). You cannot register at this rate if you have submitted an abstract. You must choose in advance which day you plan to attend the Conference during the registration process.


Companion registration fees After 15 July 2011Companion programme 150 Euros

Companion registration includes:

• Welcome Reception on Sunday, 11 September 2011

• Exhibitors Reception on Monday, 12 September 2011

• Conference Dinner on Thursday, 15 September 2011

• A presentation of scheduled activities on Monday, 12 September 2011, in the morning

• A visit of the Marseille City Center on Monday, 12 September 2011, in the afternoon

OthersExtra copy of the conference publication, which includes all papers presented at the conference 100 Euros

10 - CONFERENCE EVENTS

Social EventsWelcome Reception on Sunday, 11 September 2011

18:00 – 20:00

Palais des Congrès – Parc Chanot

Rond Point du Prado

13008 Marseille

Metro Line 2 “Rond Point du Prado” Station

You will be able to pick up your badge and conference materials from 17:00 to 20:00 on 11 September and meet your colleagues for a drink at the conference venue upon your arrival in Marseille.

Special Event: 100 years of Superconductivity

Exhibitors Reception on Monday, 12 September 2011

19:00 – 21:00

Palais de la Bourse

22 La Canebière

13001 Marseille

Metro Line 1 “Vieux Port” Station

In addition to the plenary sessions, invited talks, and oral and poster presentations, the Conference will be celebrating the 100th Anniversary of the discovery of superconductivity, in 1911. The celebration will take place during the Exhibitors Reception which will be held at the prestigious Palais de la Bourse, on Monday, 12 September 2011. All participants are invited to attend this event.

Conference Dinner on Thursday, 15 September 2011

17:00 – 23:00

Couvent Royal

Saint-Maximin la Sainte Baume

Departure from Palais des Congrès – Parc Chanot



All registered conference participants are invited to attend this festive event. The Conference Dinner will take place at the majestic Couvent Royal in Saint-Maximin. Buses will pick you up at the conference venue at 17:00 and bring you back to Marseille at the end of the dinner, with stops at main hotels.

Companion ProgrammeThe Companion Program includes the following (see above for description):

• Welcome Reception on Sunday, 11 September 2011

18:00 – 20:00

Palais des Congrès – Parc Chanot – Rond Point du Prado – 13008 Marseille


• Special Event: 100 years of Superconductivity

Exhibitors Reception on Monday, 12 September 2011

19:00 – 21:00

Palais de la Bourse – 22 La Canebière – 13001 Marseille


• Conference Dinner on Thursday, 15 September 2011

17:00 – 23:00

Couvent Royal – Saint-Maximin la Sainte Baume



The Companion Programme also includes:

A presentation of scheduled activities on Monday, 12 September 2011

10:00 – 11:00


Rond Point du Prado

13008 Marseille


The person in charge of excursions and the Companion Programme will provide the details of scheduled activities for the week, over coffee and tea.

Visit of the Marseille City Center on Monday, 12 September 2011

14:00 – 17:00

Departure from Quai des Belges

13001 Marseille (Vieux Port)


You will take a miniature train to the most famous monument in Marseille: Notre-Dame de la Garde. This is the highest point of the city (162 m), where the first chapel was built in 1214, and offers an impressive view of Marseille. The present Romanesque-Byzantine basilica designed by architect Esperandieu and consecrated in 1864, was one of the great building projects undertaken during the Second Empire. The train will stop at Notre-Dame de la Garde for a while, so that you can have time to enjoy the wonderful view of Marseille and visit the basilica.

Technical programmeTECHNICAL VISITS ON WEDNESDAY, 14 SEPTEMBER 2011

Visit to Cadarache Site (CEA and ITER)

13:00 – 18:00

Saint-Paul-Lez-Durance




Visit to Marseille Port Autonome (Marseille Commercial & Industrial Harbour)

13:00 – 18:00



Visit to Grenoble Site (LNCMI and ESRF)

Full day – 7:30 – 20:00

Departure from Palais des Congres – Parc Chanot


Excursions NOT INCLUDED IN THE REGISTRATION FEE

Cassis visit on Tuesday, 13 September 2011 (full day)

9:30 – 18:00



Rate: 100,00 euros

Situated 22 km east of Marseille, Cassis is a cosy small town built around a sheltered bay between two «Protected Natural Sites»: the Cap Canaille and the Massif des Calanques.

To the east, Cap Canaille is the home of the highest cliffs in Europe at a 416 m overhang to the sea. To the west, between Cassis and Marseille, the Massif des Calanques offers a beautifully coloured landscape that encompasses the blue sky of Provence, the Mediterranean Sea, green pine forests and white limestone cliffs.

The tour includes a boat trip to several creeks situated between Marseille and Cassis, lunch, and free time in Cassis to visit the village.

Buses will leave from Marseille at 9:30 to take you to Cassis. You will then take a miniature train to the boat departure area, situated directly on the harbour. Buses will bring you back to Marseille at the end of the day, to the conference venue.

Les Baux de Provence visit on Wednesday, 14 September 2011 (full day)

9:00 – 18:00



Rate: 90,00 euros

Between Arles and Saint-Rémy de Provence, Les Baux de Provence is a site rich in culture and discoveries in the heart of Provence. The village has inspired many artists including Dante, Gounod and Cocteau.

The day will begin with a guided tour of the ancient Citadel where you will enjoy the rich history of the site and admire the wonderful view of the landscape as well. Lunch will take place in the lovely center of the village in one of its traditional restaurants. In the afternoon, you will have free time in the village of Les Baux to wander around and shop.

Buses will pick you up at the conference venue at 9:00 and bring you back to the same place at the end of the day.

Marseille visit on Thursday, 15 September 2011 (morning)

9:00 – 12:00


Departure from Marseille Tourist Office

4 La Canebière

13001 Marseille


Rate: 15,00 euros

The morning will begin with a guided visit of the Panier District by foot, and end with a visit to a soap factory.

One of the city’s oldest districts, the Panier is where the ancient Phoenecians first settled and founded the city of Massilia. Using the 18th-century Hôtel-Dieu and Notre Dame des Accoules church tower (17th-19th century) as reference points, which lead to the foot of Montée des Accoules - a series of steep flights of steps typical of old Marseilles - lead right to the heart of the district and a pedestrians’ paradise. Once home to the ancient city’s Greek agora (a public open space used for assemblies and markets), Place de Lenche still bustles with life and has its own market, restaurants and theatre. At the summit of the old town is the Place des Moulins, which in the 16th century lived up to its name with no less than fifteen flourmills. These days the fountain and school help maintain its village square tranquillity and charm.

Representing an important industrial tradition in Marseille, the soap factories have contributed to the city’s reputation and continue to do so today

We recommend you to take comfortable shoes and a hat.

Post-Conference ToursNOT INCLUDED IN THE REGISTRATION FEE

The Conference organizers also propose post-conference tours to CEA Saclay or CERN in Geneva. The departure for both tours is scheduled on Friday, 16 September, 2011. The site visit will take place on Saturday, 17 September 2011. Return to Marseille will also be organized on Saturday evening.

IEEE Awards in Applied SuperconductivityThe IEEE Council on Superconductivity presents IEEE Awards in the field of applied superconductivity annually at international conferences dealing with applied superconductivity. The IEEE Council on Superconductivity is pleased to present the following IEEE Awards at the 22nd International Conference on Magnet Technology (MT-22) in Marseille, France, during the Awards Ceremony on Monday morning, 12 September 2011.

THE IEEE AWARD FOR CONTINUING AND SIGNIFICANT CONTRIBUTIONS IN THE FIELD OF APPLIED SUPERCONDUCTIVITY

Criteria: This Award recognizes individuals for their scientific or technical contributions in the field of applied superconductivity over an extended period of time and the role they have played to promote the advancement of applied superconductivity.

Prof. YUKIKAZU IWASAM.I.T. Francis Bitter Magnet LaboratoryFor significant and sustained contribution in the field of large scale applications of superconductivity, in particular:

• for his pioneering work in developing techniques for making superconducting joints between NbTi ,and Nb3Sn wires and, recently, MgB2 wires, • for formulating the basic design principles that enable high-performance (“adiabatic”) LTS magnets, used in NMR and MRI, to operate nearly quench free, • for applying HTS to NMR and MRI systems, • for educating students and postdocs, and hosting many visiting international scholars at the M.I.T. Francis Bitter Magnet Laboratory, and, • for authoring the textbook “Case Studies in Superconducting Magnets”, 1st Edition (1994) and 2nd Edition (2009).

Dr. ALVIN TOLLESTRUPFermi National Accelerator Laboratory, Batavia, IllinoisFor significant and sustained contribution in the field of large scale applications of superconductivity with emphasis on magnets for accelerator applications, in particular:

• for his efforts in leading the pioneering design, testing and commissioning of 1,000 superconducting magnets into the Tevatron at the Fermi National Accelerator Laboratory, the first large-scale application of superconductivity, and, • for his efforts in applying the technology of superconductivity to all areas of particle physics and for his leadership in the collaboration of applying high temperature superconductors to advanced accelerators such as a muon collider.

Dr. BERNARD TURCKCommissariat a l’Energie Atomique, CEA-Cadarache, FranceFor significant and sustained contribution in the field of large scale applications of superconductivity, in particular:

• for the invention of the Tore Supra conductor and his major role in the commissioning of the Tore Supra superconducting magnet


system at CEA Cadarache, which has been in operation for more than 20 years,• for his involvement in the development of 40 kA dual channel niobium-tin cable in conduit, a new concept which has been selected for use in ITER, the International Tokamak Experimental Reactor, and, • for playing a major role in demonstrating that superconductivity and fusion are compatible technologies.

11 - LOCAL INFORMATION

MARSEILLE TOURIST OFFICE

www.marseille-tourisme.com/en/in-marseille 4, La Canebière - 13001 Marseille, France

Tel: +33 (0)826 500 500 (Subway Line 1: “Vieux-Port” Station)

DISCOVER MARSEILLE

• By foot: guided visits (with Culture Ministry guides). Duration: approximately 3 hours (Contact: Tourist Office).

• By bus with HISTOBUS: guided tours of some of Marseille’s main attractions, with commentaries available in different languages.

• By small train: two tours available, “Notre-Dame de la Garde” and “Old Marseille” (Contact: Marseille Tourist Office).

• By boat: cruises – Calanques visits (Departure from Vieux Port – Old Harbour).

• Boat shuttles to the If-Castle and Frioul Islands provide regular service. Departure from Vieux Port – Old Harbour.

• HISTOBOAT: tour of Marseilles harbour with commentaries available in different languages. Contact: 1 Quai des Belges, Marseille 13001 / Phone: +33 (0)4 91 55 50 09.

(For more information, contact the Marseille Tourist Office)

Marseille Port Autonome offers frequent shuttles to Corsica, Italy, Sardinia, Tunisia and Algeria.

Port Autonome

61 Bd des Dames

13002 Marseille, France

Tel: (+33) 3260 - Fax: +33 (0)4 91 56 25 86

www.sncm.fr (Metro Line 2: from “Joliette” to “Rond-Point du Prado”)

VISIT MARSEILLE WITH THE CITYPASS

The Marseille Tourist Office offers a CITYPASS which provides free access to 14 museums in the city; Old Harbour Cruise and visit to the Chateau d’If; one tour in the tourist trains and free access to all public transportation (metro, bus and tramway), all with the same ticket. The prices are:

• Single day pass: 22 euros

• Two-day pass: 29 euros

Museum List

• Museum of African, Oceanic and American-Indian Art

• Marine Museum

• Fashion Museum

• Roman Docks Museum

• Museum of Mediterranean Archeology

• History Museum

• Death Camps Memorial

• Natural History Museum

• Museum of Popular Arts and Traditions

• Grobet-Labadie Museum (furniture, paintings)

• MAC Contemporary Art Museum

• Palais des Arts (Temporary exhibitions)


• Musée Cantini

• Musée de la Faïence

Visits and Walks

• Guided visit of the Chateau d’If

• Tourist train to Notre Dame de la Garde or to the Old City

• Boat cruise to the If Island or to the Frioul Islands

All opening hours are available at the Marseille Tourist Office

To learn more about the Region, to discover Provence: http://www.decouverte-paca.fr/us/

12 - ADDITIONAL INFORMATIONPASSPORT AND VISA:

Every person entering France must have a valid passport and/or identification card. A visa is required for some nationalities. Please contact the nearest French Embassy or Consulate, or www.diplomatie.gouv.fr/en for further information. The conference organizers will provide an official letter of invitation upon request to help overcome administrative difficulties in certain countries. This invitation will not imply any obligation from the Organization to provide any kind of financial contribution. Requests should be made by fax or e-mail and must include the participant’s complete mailing address, fax number, e-mail address and/or professional or student status proof.

TELEPHONE:

To call France from abroad, dial the local international access code, followed by 33 (France country code), and the domestic number including the area code (minus the initial 0). For international calls from France, dial 00 followed by your correspondent’s country code and number.

ELECTRICITY:

Electricity in France is 220 Volts; frequency is 50 Hz and plugs have two male contact points. Plan to bring an adaptor and transformer, if necessary, for electrical appliances or electronic equipment using different voltage.

CLIMATE AND CLOTHING:

September weather in Marseille is usually still quite warm and sunny, but temperatures can fall with the Mistral wind. Average number of days of sunshine is 300 days per year. Daily temperatures range from 17°C to 25°C. Night temperatures are usually milder, between 10°C to 15°C.

SAFETY AND USEFUL TELEPHONE NUMBERS:

Do not leave valuables of any kind in your vehicle.

Please take care of your personal belongings at all times.

Info H1N1 Flu: +33 (0)825 302 302*Emergency Police: +33(0)17*Rescue Services (Firemen): +33(0)18 or +33(0)112*Emergency Rescue Services: +33(0)15 or +33(0)112*Anti-Poisoning Centre: +33 (0)4 91 75 25 25*Lost & Found property: +33 (0)4 91 14 68 97*Social Rescue Services: +33 (0)4 95 04 58 53*Emergency Practitioner: +33 (0)36 24*Emergency Heart Attack: +33 (0)4 91 49 91 91*Emergency Pharmacy: +33(0)3237*Diving Accident: +33 (0)4 91 74 49 96*Dental Emergency: +33 (0)892 566 766*Traffic Information: +33 (0)800 100 200*

* Omit +33 and include 0 if calling from a French phone.


13 - TRANSPORTATIONConference venue

MT-22 will be hosted at the Congress Center of the Parc Chanot in downtown Marseille, France.


Porte A

Rond-Point du Prado

13008 Marseille, France

Metro Line 2 « Rond Point du Prado » Station

TRANSPORTATION

ACCESS BY PLANE

Marseille Provence Airport:

The international Marseille-Provence Airport is about 25 minutes from the centre of Marseille. It links 83 cities in 30 countries; a daily flight to Paris departs every half hour.

www.mrsairport.com/eng/index.jsp Tel: +33 (0)4 42 14 14 14

For low cost trips: MP2 – Marseille Provence Airport

www.mp2.aeroport.fr

Airport Shuttle:

A shuttle bus between the airport and Marseille Saint-Charles Train Station departs every 20 minutes.

Duration of trip: approximately 25 minutes depending on traffic.

Rate for a single ticket: 8.50 Euro.

Tel: +33 (0)4 42 14 31 27 or +33 (0)4 91 50 59 34.

Airport taxis:

To book your taxi by phone, call +33 (0)4 42 88 11 44.

Approximate rate: circa 40 euros by day and 50 euros by night.

ACCESS BY TRAIN

Marseille has a direct fast train connection (TGV) between Marseille Saint-Charles station and Paris Gare de Lyon station – 3 hours and/or Paris Roissy Charles De Gaulle Airport station 3h30.

Marseille Saint-Charles Train Station (SNCF):

www.voyages-sncf.com Tel: (+33) 36 35

The Saint Charles Metro Station (line 2) is located directly below the train station.

ACCESS BY CAR

• From Fos, Martigues, Arles, Montpellier, Toulouse, Barcelone: Use Highway A55

• From Cassis, Toulon, Nice, Milan, Turin, Gènes: Use Highway A50

• From Aix en Provence, Lyon, Paris, Bruxelles: Use Highway A7

In Marseille, Prado-Carénage tunnel provides:

• A direct link between highways A55 & A50

• Fast access to Parc Chanot from A55

• Only five-minute drive across the city centre

Exhibitors’ Parking

«Parc Chanot» Car Park (fixed daily rate of 4 euros VAT included per day and vehicle).


BUS / METRO / TRAMWAY / TAXI

Marseille Public Transportation System (RTM)

There are two metro lines and two tramway lines serving Marseille, as well as an extensive bus service covering the whole city.

Tel: +33 (0)4 91 91 92 10

Internet: www.rtm.fr

Metro Lines 1 and 2:

First departure time: 5:00 AM from all terminus.

Last departure time: 10:30 PM from Monday to Thursday and 0:30 AM on Fridays, Saturdays and Sundays.

Take Metro Line 2 (Red) towards Sainte-Marguerite Dromel to the Rond Point du Prado Station.

Free maps and guides are available at the information desks and in the main subway stations: La Rose, St Just, Réformés, Saint Charles, Vieux Port, Estrangin, Castellane, La Timone, Bougainville, Joliette, Noailles, Rond Point du Prado and Ste Marguerite.

Bus stop “Rond Point du Prado” is the closest to the Palais des Congrès Parc Chanot.

Take Lines 21, 22, 22s, 23, 41s, 44, 45, 72 or 83.

Tramway (2 lines):

First departure time: 5:00 AM from all terminus.

Last departure time: 0:30.

Taxi Radio Marseille:

Tel: +33 (0)4 91 02 20 20


14 - EXHIBITORS LIST

1 - ELYTT ENERGY 2 - HYPER TECH RESEARCH 3 - CEFIVAL 4 - BILFINGER BERGER – BABCOCK NOELL GMBH 5 - HITACHI CABLE LTD 6 - ALPHYSICA GMBH 7 - KIT – KARLSRUHE INSTITUTE OF TECHNOLOGY 8 - SUPERCON INC 9 - TESLA ENGINEERING LTD 10 - AMSC – AMERICAN SUPERCONDUCTOR 11 - METROLAB INSTRUMENTS SA 12 - HTS 110 LTD – GENERAL CABLE SUPERCONDUCTOR – INDUSTRIAL RESEARCH LTD – GROUP 3 TECHNOLOGY 13 - SIMIC 14 - BEST – BRUKER ENERGY & SUPERCON TECHNOLOGIES 15 - LUVATA SUPERCONDUCTORS 16 - SUPERPOWER INC 17 - R. KIND 18 - RTI CRYOMAGNETIC SYSTEMS 19 - ASG SUPERCONDUCTORS SPA – COLOMBUS SUPERCONDUCTORS SPA 20 - JASTEC – JAPAN SUPERCONDUCTOR TECHNOLOGY INC 21 - EPFL LAUSANNE 22 - COBHAM TECHNICAL SERVICES 23 - SUPER RESIN INC 24 - WEKA AG 25 - WESTERN SUPERCONDUCTING TECHNOLOGIES 26 - OXFORD INSTRUMENTS NANOSCIENCE 27 - SIGMAPHI 28 - SENIS 29 - CNIM 30 - ICAS SCRL – ITALIAN CONSORTIUM FOR APPLIED SUPERCONDUCTIVITY 31 - CRYOMECH 32 - REA MAGNET WIRE COMPANY 33 - CRYOGENIC LTD 34 - DANFYSIK 35 - TOSHIBA CORPORATION POWER SYSTEM COMPANY 36 - CEA – COMMISSARIAT A L’ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES 37 - ITER ORGANIZATION 38 - F4E – FUSION FOR ENERGY 39 - ALSTOM POWER SA 40 - CRYOMAGNETICS


15 - EXHIBITORS & SPONSORS

ALPHYSICA GMBHBooth 6

ALPHYSICA GmbH specializes in calculations to optimize electrophysical apparatus by development complex coupled numerical models (incl. 3D) for electromagnetic and thermal hydraulic analysis. Our software Venecia is used actively for ITER thermal hydraulic tasks (TF, PF, CS) and for other tokamaks.ALPHYSICA is distributor in USA and in Europe:- LTS- and HTS-cables of VNIIKP (Russia)- CuNb-wires of NanoElectro (Russia)

ALPHYSICA GmbH6, Unterreut, Karlsruhe,D-76135, Deutschland,Phone: +49 (0)163 904-85-61Fax: +49 (0)7219 [email protected] www.alphysica.com

ALSTOM POWER SABooth 39

Alstom is a global leader in the world of power generation for coal, nuclear conventional islands, gas, wind, and hydro power plants. A global leader in power generation and transmission, Alstom is setting the benchmark for innovative technologies to provide clean, flexible and efficient power solutions for our customers. Alstom designs, manufactures, installs and services the broadest range of power generations systems. We supply these products and services as single components or as complete turnkey packages, delivering maximum value for plant owners throughout the lifetime of their plant.

Daniel BRESSONAlstom Power SystemsManager Magnet ActivityCécile PanagetCommunications ManagerAlstom Power SA3 Avenue André Malraux92309 Levallois-Perret Cedex (France)Tel: +33 1 41 49 25 83Mobile: +33 6 74 82 48 [email protected]

AMSC – AMERICAN SUPERCONDUCTORBooth 10Amperium™ wire is the brand name for AMSC’s second generation (2G) high temperature superconductor (HTS) wire. It is manufactured utilizing a proprietary process at AMSC’s headquarters in Devens, Massachusetts – the world’s largest commercial-scale HTS wire manufacturing facility.AMSC is well known for introducing new commercial applications for superconductor wire, including some for the Smart Grid. Power cables utilizing AMSC’s proprietary high temperature superconductor (HTS) Amperium™ wire can carry up to 10 times as much power


as conventional cables and can significantly increase transmission efficiency. As a component of high-field magnets, Amperium™ wire delivers significant advantages over not only copper wire, but also over LTS (low temperature superconductor) wire. The cryogenic system is less complex with Amperium wire, which simplifies system design and lowers manufacturing costs. AMSC’s FaultBlocker™ technology for HTS cables using Amperium wire provides electric utilities with the ability to automatically suppress power surges and create resilient, self-healing grids. Initial superconductor cable systems are now operating in the power grids in Ohio and on Long Island.

Rob Rouse64 Jackson Road, Devens, MA 01434 USATel: +1 978 842-3519Fax: +1 978 842-3364Email: [email protected] Web: www.amsc.com

ASG SUPERCONDUCTORS – COLOMBUS SUPERCONDUCTORS SPABooth 19

ASG Superconductors is a particularly dynamic business reality, and a leading player on the international market of resistive and superconducting magnets for high energy physics and thermonuclear fusion applications. Its competences range from design and manufacturing, up to testing of complete superconducting magnet systems. ASG Superconductors is currently under contract with F4E for the supply of the ITER TF Winding Packs.

Alessandra SecciASG Superconductors S.p.A.Corso F.M. Perrone, 73r16152 Genova ItalyTel. +39 010 6489 234Fax +39 010 6489 [email protected]

BILFINGER BERGER – BABCOCK NOELL GMBHBooth 4

Babcock Noell GmbH: Magnets for research and industryIn close cooperation with customers, BNG develops and fabricates LTS and HTS superconducting magnet systems for research and industry. BNG has also a proved experience in supplying components for large-scale projects such as the LHC dipoles and the non-planar coils for Wendelstein 7-X.

Carsten BergerHead of Forwarding DepartmentBabcock Noell GmbHAlfred-Nobel-Str. 2097080 Würzburg, DeutschlandPhone +49 931 903 6006Fax +49 931 903 [email protected]


BEST – BRUKER ENERGY & SUPERCON TECHNOLOGIESBooth 14

Bruker Energy & Supercon Technologies (BEST) is a subsidiary of Bruker Corporation (NASDAQ: BRKR). BEST is a world-leading supplier of superconductors, superconducting magnets and devices, as well as other advanced instrumentation for alternative energy, scientific, industrial, and healthcare applications. BEST solutions have the potential to enhance the performance, reliability and efficiency of electrical power applications as well as help enable and boost R&D and science in many fields. The product range encompasses the world’s broadest portfolio of high performance low and high temperature superconductors, a wide range of superconducting magnets and devices for industrial and research applications, as well as accelerator technologies, insertion devices, synchrotron beamlines and X-ray/XUV instrumentation, including turn-key systems.

Maike HonoldFriedrich Ebert Str 151429 Bergisch Gladbach GERMANYTel: +49 2204 84 5000Fax: +49 2204 84 [email protected]

CEA – Commissariat à l’Energie Atomique et aux Energies AlternativesBooth 36

Within CEA/DSM, three institutes at Saclay (SACM), Cadarache (STEP) and Grenoble (SBT) are strongly involved in the design, construction, tests and operation of superconducting magnets and their cryogenics. The human and technical means of the three institutes enable them to be involved in most of the present large projects in the field of applied superconductivity for fundamental research (particle accelerators, fusion devices, medicine, magnetic cooling).

Annie-Laure PecquetDSM/IRFM/DIR/DIRIRFMCEA Cadarache, F 13108 St Paul lez DuranceTel: 33 442 25 44 63 E-mail: [email protected]

CEFIVALBooth 3

Since 1987, Cefival is involved in the superconductor Jackets development and production. Successful collaborations have been driven with:- French Research Agency CEA (Tore Supra), - NET Next European Torus team in Garching (square round shapes 316L in 1993), TF plate sections (2000) and today with ITER and F4E organisations in the production of jackets for the JT60SA CS jackets from Japan, ITER CS jackets and ITER PF jackets.

Fabienne HatayCEFIVAL


35 rue du Docteur Touah95340 Persan, [email protected]

CNIMBooth 29

CNIM Group designs and produces turnkey industrial solutions with high technological content; it offers unique research / expertise services. It anticipates future challenges while developing its skills and key technologies. Main areas of activity are: Environment, Mechanical Products and systems with high technological content for Defence, Nuclear, Industry and Life sciences and Energy (thermal and solar).

Contact: Mr Jean Claude CERCASSI35 rue de Bassano78008 Paris, FRANCEPhone: +33 4 94 10 31 16, [email protected]

COBHAM TECHNICAL SERVICESBooth 22

COBHAM Vector Fields Opera is the design tool of choice for NMR, MRI, accelerator and other demanding field specification magnets. Very high accuracy field gradient and harmonics calculation is achieved using total/reduced potential formulations, pioneered by VF since the 1980’s. New “mosaic” meshing allows hexahedral, tetrahedral and prism elements to co-exist, improving accuracy and simulation speed. Multiphysics tools couple electromagnetic, thermal and stress analyses, including unique simulation for superconducting quench.

Julie Shepherd24 Bankside, Kidlington, Oxford, Oxon OX5 1JE, UKPhone: +44 (0) 1865 370151Fax: +44 (0) 1865 370277Email: [email protected] site: www.cobham.com/technicalservices

COLOMBUS SUPERCONDUCTORS SPA – ASG SUPERCONDUCTORSBooth 19

Columbus Superconductors is a superconducting wire manufacturing company dedicated to MgB2 development. Multifilamentary, MgB2 conductors are produced and supplied in unit lengths exceeding 3 Km, targeting a variety of DC and AC applications. Conductors are available in different shapes and internal configurations. Wires as well as components based on MgB2 can be realized according to customers’ request.

Dr. Giovanni GrassoColumbus Superconductors SpaVia delle Terre Rosse, 3016133 Genova, ItalyTel.: +39-010-8698102Fax: +39-010-8698110Email: [email protected]


CRYOGENIC LTDBooth 33

Cryogenic Ltd is a market leader in cryogen free technology to the construction of high field superconducting magnets for fields up to 22 Tesla. The company pioneered the first helium free magnet system over 15 years ago and now has the highest distrubtion of cryogen free manget systems globally. Cryogenic is the only company to have total in-house capabilities of building complete superconducting magnet systems, from designing a solution for customer research needs, winding the coil, machining the cryostat outer, building the suitable electronics and testing. All under one roof. Ensuring highest quality control at each stage of production. Cryogenic continues to lead the market in the magnet technology by its recent deliveries of high field measurement systems to 18 Tesla with a Vibrating Sample Magnetometer and Specific heat probe, Ultra low temperature 3D vector field magnet with temperatures down to 10 mK, interchangeable cryogen free magnet with He-3 and DR inserts, 7 Tesla magnet capable of rapid ramp-up operation.

Claudia SantarsieroCryogenic Ltd, Unit 30 Acton Park Estate, The Vale, London, W3 7QE, UKTel: +44 (0)208 743 6049Fax +44 (0)208 749 [email protected]

CRYOMAGNETICS INCBooth 40

Cryomagnetics is a leading producer of superconducting magnets and cryogenic research systems. Products include CRYOGEN-FREE and conventional LHe-based magnets to 20 Tesla, variable temperature inserts, and dilution refrigerators providing sample environments to <10mK. It also offers a wide array of cryogenic accessories and control instruments such as the 4G Superconducting Magnet Power Supply, current leads, gaussmeters and Hall probes, liquid cryogen level monitors, and cryogenic thermometry.

Michael Coffey, PresidentCryomagnetics, Inc. / Cryoconcept1006 Alvin Weinberg DriveOak Ridge, TN 37830 USAPh: +1 (865) 482-9551Fx: +1 (865) 483-1253www.cryomagnetics.com www.cryoconcept.com

CRYOMECHBooth 31

Cryomech introduces the Helium Recovery System. It has been designed to recover boil off from laboratory liquid helium cryostats, compress it and remove the water and air contaminants. It is the right size to supply the liquefaction rates of both Cryomech Liquid Helium Plants (12-18 liters per day).

Tracy SherwoodExecutive AssistantCryomech, Inc.113 Falso DriveSyracuse, New York 13211phone 315/455-2555fax 315/[email protected]


DANFYSIKBooth 34

Danfysik develops and manufactures high performance particle accelerators and components for research institutions and the healthcare industry. Our products include magnet systems, insertion devices, high precision magnet power supplies and beam instrumentation. We have worked with particle accelerator technology for many years and have acquired extensive knowhow of standard, tailored and unique solutions.

Erik Steinmann HansenSales Manager, Power ElectronicsDANFYSIK A/S • Gregersensvej 8 • DK-2630 Taastrup • DenmarkPhone: +45 7220 2400 Fax: +45 7220 2410Email: [email protected] Web site: www.danfysik.com

ELYTT ENERGYBooth 1

Elytt Energy is a Spanish company that:• Manufacture Magnets for particle accelerators (normal conducting, superconducting, permanent magnet)• Manufacture Power Sources for particle accelerators magnets• Design and calculate Magnets for particle accelerators (normal conducting, superconducting, permanent magnet).Clients: Cern, F4E, ITER, DESY, GSI, Jülich Forschun Zentrum, Ciemat, ESS Bilbao…

Aitor EcheandiaBusiness ManagerELYTT ENERGY/NEUREUS TECHNOLOGIESPaseo de la Castellana 114, 3, puerta 728046 Madrid, SpainPhone: +34 91 411 09 63Fax: +34 91 411 09 64Mobile: +34 686 96 46 40Email: [email protected]

EPFL LAUSANNEBooth 21

The Superconductivity section of CRPP is a 20 people strong team located on the ground of the PSI in North West Switzerland. The R&D activities for low and high temperature superconductor technology include design, characterization and analysis of superconductors, coils and current leads. In support of the ITER project, we operate SULTAN and EDIPO, the only test facilities worldwide able to test short length, high current, force flow superconductors.

Pierluigi BruzzoneFusion Technology - SuperconductivityEPFL- CRPPCH 5232 - Villigen PSISwitzerlandPhone: +41 56 310 3259Fax: +41 56 310 3729Web site: http://crppsc.web.psi.ch


F4E – FUSION FOR ENERGYBooth 38

Fusion for Energy (F4E) is the European Union’s organisation for Europe’s contribution to ITER.One of the main tasks of F4E is to work together with European industry, SMEs and research organisations to develop and provide a wide range of high technology components together with engineering, maintenance and support services for the ITER project.F4E supports fusion R&D initiatives through the Broader Approach Agreement signed with Japan and prepares for the construction of demonstration fusion reactors (DEMO).F4E was created by a decision of the Council of the European Union as an independent legal entity and was established in April 2007 for a period of 35 years.Its offices are in Barcelona, Spain.

Christos PapachristodoulouInformation and CommunicationJosep Pla 2Torres Diagonal Litoral B3 08/1908019 Barcelona SPAINPhone. +34 93 489 74 36Fax. +34 93 320 18 [email protected] site: http://www.fusionforenergy.europa.eu

HITACHI CABLE LTDBooth 5

Hitachi Cable (HCL) offers electric wires, cables, and copper products to electronic materials, automobile parts, and even information network devices and system integration solutions. HCL is manufacturing NbTi & Nb3Sn superconducting strands / cables. About 35 ton bronze route Nb3Sn strands and total length 13km large scale cables for ITER TF coil have been produced in the last three years.

Yoichi SuzukiTsuchiura works 3550 Kidamari, Tsuchiura-shi,Ibaraki-ken, 300-0026 JAPANTEL: +81-29-826-7400FAX: +81-29-826-1846Email: [email protected]: www.hitachi-cable.com

HTS 110 LTD – GENERAL CABLE SUPERCONDUCTOR – INDUSTRIAL RESEARCH LTD – GROUP 3 TECHNOLOGY

Booth 12

HTS-110 Ltd (www.hts-110.com):HTS-110 designs and manufactures high field electromagnets for synchrotrons, research labs and industrial applications, utilising High Temperature Superconducting conductor.In addition to HTS magnets, HTS-110 is developing high-frequency pulse-tube based cryocoolers.


General Cable Superconductor (www.gcsuperconductors.com):General Cable Superconductors develops and manufactures HTS Roebel cable. The cable has flexible current capacity and geometry. A choice of strand widths and the transposed architecture helps manage AC loss.

Industrial Research Ltd (www.irl.cri.nz):Industrial Research Ltd (IRL) is a New Zealand government owned research enterprise that works with industry in New Zealand and internationally. IRL has 24 years experience in high-temperature superconductive (HTS) materials development and in developing a wide range of HTS-wire based applications.IRL supports New Zealand and international companies through a range of research programmes covering new HTS materials, magnet-based technologies, cryocoolers and specific applications including transformers, generators and MRI systems.

Group 3 Technology (www.group3technology.com):Group3 Technology’s business is the design and manufacture of scientific instruments for measuring magnetic fields and specialist control systems.Group3 produces the worlds most accurate and cost effective Hall Effect Digital Teslameter and an accurate analog output magnetic field transducer.

Tijs RobinsonProject ManagerHTS-110 Ltdhttp://www.hts-110.comDDI: +64 4 931 3093FAX: +64 4 931 3344EML: [email protected] Box 31-310Lower HuttNew Zealand

HYPER TECH RESEARCHBooth 2

Hyper Tech Research, Inc. manufactures and sells magnesium diboride (MgB2) and niobium tin (Nb3Sn) superconducting wires. Hyper Tech Research also fabricates custom magnet coils and fault current limiter elements using MgB2.

Michael TomsicHyper Tech Research, Inc.539 Industrial Mile RoadColumbus, OH 43228Tel: [email protected]


IBERDROLA INGENERIA Y CONSTRUCCION SAAdvertising sponsor

IBERDROLA Ingeniería y Construcción is one of the major energy engineering companies in the world in electric generation, networks, renewable and nuclear energy.In the area of nuclear generation, IBERDROLA Ingeniería offers a wide range of products: engineering and construction of new nuclear power plants; modernization of operating plants; accelerators and fusion; dismantling of nuclear facilities.

María Luisa Sánchez-Mayoral ValensAvda. Manoteras 20, 28050 Madrid, SpainTel.: +34 913 833 180Fax.: +34 917 133 291E-mail: [email protected]: www.iberdrolaingenieria.com

ICAS SCRL – ITALIAN CONSORTIUM FOR APPLIED SUPERCONDUCTIVITYBooth 30

ICAS has been established in 2010 and is focused on the development of the technologies associated with power applications of Superconductivity. ICAS members are ENEA, CRIOTEC Impianti S.r.l. owning a high expertise in cryogenics, and TRATOS Cavi S.p.A, leader in cabling power cable, optical fibers and much more.ICAS operates mainly in the design, manufacturing and testing of superconducting conductors, coils, large and high field magnets and other superconducting devices, activities which are the natural development of the scientific and technological knowledge of the ENEA researchers promoting group, consisting in a unique background, built in more than 20 years, in manufacturing superconducting cables and conductors for fusion application.

Antonio della CorteVia E. Fermi 45, 00044 Frascati (Rome), ItalyTel: +39 06 94005720Fax: +39 06 94006119E-mail: [email protected]: www.icasweb.com

ITER ORGANIZATIONBooth 37

Based in Cadarache, France, the ITER Organization was formally established on 24 October 2007, following ratification of the ITER Agreement by all Members. It now employs 480 people and is poised to begin building the ITER machine.The ITER Agreement brings together the People’s Republic of China, the European Union (via EURATOM), the Republic of India, Japan, the Republic of Korea, the Russian Federation and the United States of America in a unique international collaboration to establish fusion as a new source of energy.The Members of the ITER Organization will bear the cost of the project through its 10-year construction phase, and its 20-year operational phase before decommissioning. The cost is estimated at 13 billion euros over the full course of the project’s lifetime. 90% of the ITER machine components will be contributed “in-kind” by the seven ITER Members—that is to say the Members will manufacture the components themselves, rather than financing for them.


The ITER Organization is currently in its fourth year of operation. The Director-General of the Organization is Osamu Motojima.

Michel ClaessensCommunication Head / CommunicationSabina GriffithTechnical Editor / CommunicationITER Organization, Building HQ/212, ODG, CommunicationRoute de Vinon sur Verdon13115 St Paul Lez Durance FrancePhone: +33 4 42 17 66 15

JASTEC – JAPAN SUPERCONDUCTOR TECHNOLOGY INCBooth 20

JASTEC is a leading manufacturer of superconducting wire and magnet. Our NbTi and Nb3Sn products are essential for the reliable performance of NMR/MRI magnet as well as of the coils for Fusion Reactor. Our magnet product range covers from high performance NMR, MRI magnets to specialty cryogen-free magnet for varieties of research and industrial applications.

Yasunao Yokota5-9-12 Kitashinagawa Shinagawa-ku, Tokyo, 141-8688, JapanTel: +81-3-5739-5210Fax: +81-3-5739-5211E-mail: [email protected]: http://www.jastec-inc.com

KITBooth 7

Innovative Developments and Applications of High-temperature SuperconductorsActivities of the Institute for Technical Physics (ITeP) of Karlsruhe Institute of Technology (KIT) focus on the development of high-temperature superconductors for applications and in particular of high-current conductors for alternating-current applications in energy technology. In addition, the components of the applications are subject of development, such as superconducting current limiters, current-limiting transformers, magnets for fusion reactors, spectroscopy, space technology, or special applications. A key competence consists in the experimental investigation of AC losses and their description by calculated models covering both superconducting cables and components. Development work is supported by expertise in cryoengineering, the development of innovative cooling concepts, and materials tests at low temperatures. The Institute pursues many international cooperation projects with industry and other institutions and offers innovative developments relating to high-temperature superconductors and a variety of test fields for conductor, component, and high-voltage tests. Contact Dr. Rolf BlattnerBusiness Development ManagerKarlsruhe Institute of Technology DE Innovation Management (IMA)Herrmann-von-Helmholtz-Platz 176344 Eggenstein-LeopoldshafenPhone: +49(0)721/608-2-5586 Fax: +49(0)721/608-24814Email: [email protected] site: www.kit.edu


LUVATA SUPERCONDUCTORSBooth 15

Luvata is world leader in metals fabrication and component manufacture. We are renowned for working at the forefront of non-ferrous and Low Temperature Superconductor industries. With unmatched experience in development and manufacture, we will thrive to meet your material needs. For a complete list of products and applications please visit www.luvata.com.

Juha KellokoskiProduction development engineer - SuperconductorsLuvata Pori Oy, P.O.Box 60, FI-28101 Pori, FinlandTel. +358 2 626 6364Fax. +358 2 626 [email protected], www.luvata.com

METROLAB INSTRUMENTS SABooth 11

Metrolab Instruments is the world leader for high precision measurement and mapping of strong magnetic fields. Products include single-probe NMR Precision Teslameters; multi-probe NMR Magnetic Field Cameras for field mapping; Precision Digital Integrators for ultra-fast high-resolution fluxmeters; and compact USB-based 3-axis Hall Magnetometers for total field measurements.

Philip KellerMarketing & Product ManagementMetrolab Technology SA110, Ch. du Pont du CentenaireCH-1228 Plan-les-OuatesTel: +41 22 884 3325Fax: +41 22 884 3310E-mail: [email protected]: www.metrolab.com

OXFORD INSTRUMENTS NANOSCIENCEBooth 26

Oxford Instruments NanoScience is a leading manufacturer of scientific equipment supplying ultra low temperature and high magnetic field sample environments for physics, chemistry and materials science research applications. The product range includes dilution refrigerators, 3He inserts, superconducting magnets, optical and spectroscopy cryostats, Cryofree® products and consultancy services.

Joanne GriffithsOxford Instruments NanoScienceTubney WoodOX13 5QX Abingdon, Oxon, UNITED [email protected]


OXFORD SUPERCONDUCTING TECHNOLOGYPoster session sponsor

Oxford Superconducting Technology is the world’s leading supplier of high performance superconducting wire and is part of the UK based Oxford Instruments Group. Oxford Instruments supplies high technology tools and systems for research and industry, based on its ability to fabricate, manipulate and characterise matter at the smallest scale.

Mark GlajchenDirector Business Development Oxford Superconducting Technology 600 Milik Street, Carteret, NJ 07008 Tel: +1 (732) 850 9311Phone: +1 (732) 541 7769 Email: [email protected] site: http://www.oxford-instruments.com/

REA MAGNET WIRE COMPANYBooth 32

Rea Magnet Wire, founded in 1933, has been insulating low temperature superconductor for over 25 years. Our in-line process monitoring, continuous HVC, and bead detection are unique world class tools, assuring our customers of quality excellence. We are proud to work in this industry, and we are available to answer questions or provide you with additional information.

William Trautmann, V.P. SalesEmail: [email protected] 421-7352

Shellie Cattell, Account ManagerEmail: [email protected] 421-7431

R. KINDBooth 17

R. KIND GmbH is a specialized manufacturer of large size open die forgings in stainless steels, nickel-based alloys and titanium. We have very comprehensive experiences with ITER since 1996. More than 400t of large size open die forgings in F316 LN ITER GRADE and F316 L(N)IG have been produced.

R. Kind GmbHNochener Str. 1-351647 GummersbachPhone: +49(0)2261-6033-46Fax: +49(0)2261-6033-43Email: [email protected] Web site: www.r-kind.deGeschäftsführer: Rolf Kind, Ralf Kind, Markus KindHRB 38748 Köln


RTI CRYOMAGNETICS SYSTEMSBooth 18

RTI Cryomagnetic systems established in 1998 is a spin-off from Russian Academy of Sciences. The company is supplying worldwide superconducting magnets for research and MRI as well as related cryogenics. Last developments: 1,5 T dedicated MRI scanner for extremities.

Prof. Yewgeni Demikhov Leninski Prospect 53, Build 8119991 Moscow, RussiaRTITel: +7 499 1326872Fax: +7 499 1326031Web: www.cryo.ruEmail: [email protected]

SENISBooth 28

SENIS is a leading manufacturer of magnetic field measurement instruments based on the Hall effect. The products include teslameters and transducers with the smallest 3-axis Hall probes, teslameters with the highest magnetic resolution, and magnetic field mapping systems for characterization of permanent and electro-magnets. SENIS also provides the related consultancy services.

Dragana Popovic RenellaTecnoparkstrasse 18005 Zurich, SwitzerlandPhone: +41 44 508 7029Fax: +41 43 205 2638Email: [email protected]: www.senis.ch

SIMICBooth 13

With a solid worldwide experience, SIMIC offers the client high quality products and services by means of four departments:• PRESSURE EQUIPMENT (Reactors, Pressure Vessels, Heat Exchangers, Columns)• MACHINING• CRYOGENICS & VACUUM EQUIPMENT • INSTALLATION & MAINTENANCE of INDUSTRIAL PLANTSSIMIC has two workshops, one located in the North West of Italy and the other with a Sea Yard in the port of Marghera (Venice) able to handle units weighting over 2000 tons. SIMIC has successfully participated to several high quality and technology projects such as the LHC Project by CERN, being awarded the GOLDEN HADRON AWARD for the successful contributions and achievements in High Quality and Delivery of the 937 Vacuum Vessels to the LHC.Since 2004, Simic is cooperating extensively and successfully to ITER, Nuclear Fusion Project, with the manufacturing of several complex prototypes. We look forward to become your partner. www.simic.it

Marianna GinolaSIMIC SPA


12072 Camerana CN - ItalyPhone: +39 0174 906 611Fax:+39 0174 906 609Email: [email protected] site: www.simic.it

SIGMAPHIBooth 27

Sigmaphi has been making magnetic systems for particle accelerators for more than 25 years, and supply them all around the world.- Products •Complete beam lines with optical design and commissioning. •Magnets up to 70 tons, resistive, superconducting, or permanent magnets, with vacuum chamber and power supply. •Complete pulsed systems.- Services •Optical and magnetic design •Magnetic measurement

Jean-Luc LancelotSIGMAPHIZI du PratRue des Frères MontgolfierF - 56000 VANNESPhone number: +33 2 97 01 08 80Fax number: + 33 2 97 01 08 81E-mail: [email protected]

SUPERCON INCBooth 8

SUPERCON, Inc. is a world leader, in the manufacture of low temperature NbTi and Nb3Sn superconductors. Supercon supplies superconducting wire and cable for a wide range of magnet applications, including: MRI, NMR, SMES, industrial processing, laboratory solenoids, and HEP projects. Supercon also offers a wide range of unique composite metal products to suit specific cryogenic applications.

Contact: David FrostProduct ManagerSUPERCON, Inc.830 Boston TurnpikeShrewsbury, MA 01545USAPhone: 508-842-0174Email: [email protected]

SUPERPOWER INCBooth 16

SuperPower Inc. offers 2G HTS wire that provides enormous advantages in energy efficiency and power density, especially for magnet systems with applications in energy and medical technologies, transportation, military, aerospace, science and research. SuperPower also offers 2G HTS coils designed and built to customer specifications. SuperPower is a subsidiary of Royal Philips Electronics, NV.

Traute LehnerMs. Erin L Keehan


Marketing Communications SpecialistSuperPower Inc.450 Duane Ave., Schenectady, NY 12304 USATel: 518-346-1414 ext. 3043Fax: 518-346-6080E-mail: [email protected] us at: www.superpower-inc.com

SUPER RESIN INCBooth 23

Super Resin has unique techniques to make various types of composite materials for a wide range of fields. We can arrange from raw materials to finished components through our technologies. We can make various components from general purpose to special use, including high precision and high temperature resistance components to satisfy customers.

Contact information:Address: 2283 Sakahama, Inagi, Tokyo 206-0822, JapanPhone: +81 42 331 3611Fax: +81 42 331 3100Sales contact email: [email protected]

TESLA ENGINEERING LTDBooth 9

Tesla Engineering, based in the UK, and EversonTesla in the USA, manufacture resistive and superconducting magnets for medicine, research, and industry. Together with Futura Composites in the Netherlands, the group has a wide range of relevant skills and technologies, and has contributed to most major accelerator projects in the last 35 years.

Dr. F. GoldieDavid Cracknell Financial DirectorTesla Engineering LtdWater LaneRH 20 3EA, Storrington, West Sussex, UNITED [email protected]

TOSHIBA COOPERATION POWER SYSTEM COMPANYBooth 35

Toshiba, a world leader in high technology, is a diversified manufacturer and marketer of advanced electronic and electrical products, spanning information & communications equipment and systems, Internet-based solutions and services, electronic components and materials, power systems, industrial and social infrastructure systems, and household appliances. Toshiba has long experience on applications based on R&D for fusion, accelerator and superconducting magnet.

Tomoyuki SasakiSecond Group, Marketing & Sales Dept.New Technology Application Business Div.Toshiba Corporation Power System Company1-1, Shibaura 1-Chome, Minato-Ku, Tokyo 105-8001, JapanTel: +81-3-3457Fax: +81-3-5444-9203


Website: www.toshiba.co.jp

WEKA AGBooth 24

WEKA AG a Swiss based SME is a leading manufacturer of cryogenics components, highly sophisticated valves and liquid level measurement instruments based on the magnet-float principle.WEKA Cryogenics Components provide solutions for handling of cryogenics liquefied gases. WEKA Cryogenics components are in service with liquid and gaseous cryogenics media below 120K down to 1.8K or even lower. Typical fluids are L/GHe & super fluid HeII, Ne, h2, Air Gases aas well as LNG, up to 1000bar pressure. Manufacturing range includes Cryogenic and Warm Control & Shut-Off Valves, Couplings, Space Cryogenics Components, HTS Current Leads, High Pressure Valves for H2-Technolgy andWEKA AG - supplying solutions!

WEKA AG, CH-8344 Bäretswil & CH-2300 La Chaux-de-Fonds, SwitzerlandSchürlistrasse 8 - CH-8344 Bäretswil Phone: +41 43 833 4343 Fax: +41 43 833 4329Allée du Quartz 1 -CH-2300 La Chaux-de-Fonds – SwitzerlandPhone: +41 32 92597 00 Fax: +41 32 926 5422Email: [email protected] Website: www.weka-ag.ch

WESTERN SUPERCONDUCTING TECHNOLOGIESBooth 25

WST is located in Xi’an, China .It is mainly engaged in R&D and manufacture of NbTi ingots, bars and NbTi/Cu, Nb3Sn/Cu superconducting wires. WST is one of the important supplier for ITER project. WST have yearly production capacity of 500 tons for NbTi surperconducting wire. Our products have been widely applied in the field of high magnetic field, nuclear fusion, accelerator, MRI, NMR. The products have got a good reputation and approved by ITER Organization.

Mr. Liang Zhaohui / Mr. David LiangEconomic & Technological DevelopmentWestern Superconducting Technologies Co., Ltd.NO.12 Ming Guang Road710018 Xi’an, Shanxi, [email protected]: www.c-wst.comTel: 86-29-86514515Fax: 86-29-86514503


16 - EXHIBITION MAP

superior performance.powerful technology.

450 Duane Avenue Schenectady, NY 12304 USATel: 518-346-1414 Fax: 518-346-6080

[email protected]

Please visit us at booth 16We are ready today to discuss your

A New Generation of SuperPower-ful MagnetsUltra-high field magnets using SuperPower® 2G HTS Wire is enabling increasingly powerful magnetic fields for advancements in physics, biology and chemistry research, medical technology and clean energy applications.

Benefiting demanding coil applications; enhanced by expert engineering

Advanced Pinning Wire – maximizes performance over various operating fields and temperatures

Compact – SuperPower wire is half the thickness of most other 1Gand 2G conductors, resulting in high engineering current density

Flexible – suitable for both pancake and layer wound coil types

100 Years ofSuperconductivity

1911-2011


17 - T E C HN ICAL PR OGRAM DET AIL (primary author only listed)

Monday, 12 S eptember 2011

PT1 - T he ITE R project 9:15-10:00Speaker: Osamu Motojima (ITER Director General)Chairs: Neil Mitchell, Daniel Ciazynski Place: Auditorium

1AO - B eam lines, spectrometers, solenoids 10:30-12:30Chairs: Frédéric Savary, Peter Wanderer Place: Endoume

1A0-1 - 10: 30 Design, construction and test of a model superconducting quadrupole for the Interaction Region of SuperB factory.Eugenio Paoloni (INFN & Università Di Pisa, Largo Pontecorvo 3, 56127 Pisa, Italy)

1A0-2 - 10:45 Superconducting magnet system for the «Troisk nu-mass» set-upEvgeny Geraskin (Institute For Nuclear Research, Ras)

1A0-4 - 11:00 Radiation Resistant Magnet System of J-PARC Hadron Experimental HallKazuhiro Tanaka (High Enegy Accelerator Research Organization)

1A0-5 - 11:15 The PANDA Magnet SystemAndrea Bersani (Panda Experiment)

1A0-6 - 11: 30 Solenoid Magnet System for the Fermilab Mu2e ExperimentMichael Lamm Fermi (National Accelerator Laboratory)

1A0-7 - 11:45 Progress on the Design and Construction of the Super High Momentum Spectrometer(SHMS) at Je�erson LabPaul Brindza (Je�erson Lab)

1A0-8 - 12:00 Test Result of the Superconducting Magnet for the AMS-02 Space SpectrometerRiccardo Musenich (INFN)

1IO1 - CICC design analysis and performance 10:30-12:30Chairs: Arnaud Devred, Ciro Calzolaio Place: Callelongue

1IO1-1 - 10: 30 Optimization of cabling pitches to reduce interstrand coupling loss and transverse load degradation in CICCs

(Invited) Ezra van Lanen (University Of Twente)1IO1-2 - 11:00 Quench characteristics of SST-1 TF Coil

Aashoo Sharma (Institute For Plasma Research)1IO1- 3 - 11:15 Impact of a plasma disruption in JT-60SA on the magnetic �eld variations and on the stability of

the TF conductorAlexandre Torre (CEA)

1IO1-4 - 11: 30 Minimum quench power and non-uniform current sharing in ITER type NbTi cable-in-conduit conductors under DC conditionsGabriella Rolando (University Of Twente)

1IO1-5 - 11:45 Numerical Simulation of the Mechanical Behavior of the ITER Cable-in-conduit ConductorsHugues Bajas (Ecp-CEA-Io)

1IO1-6 - 12:00 Stability of Cable in Conduit Conductor under fast magnetic �eld variationsJean-Luc Duchateau (CEA)

1IO1-7 - 12:15 E�ect of plasma operation on superconducting magnetic system in EASTJing Qian (Institute Of Plasma Physics, Chinese Academy Of Sciences(Asipp))

1EO 1 - Power Application 1 10:30-12:30Chairs: Christian-Eric Bruzek, Jeonwook ChoPlace: Auditorium

1EO1-1 - 10: 30 Experimental Study on application of the Fault Current Controller System for Smart GridJae Young Jang (Yonsei University)

1EO1-2 - 10:45 Development of the world’s �rst HTS Power SubstationLiye Xiao (Institute Of Electrical Engineering, CAS)

1EO1- 3 - 11:00 Conceptual design of a 20 kV, 1 kA resistive superconducting fault current limiter


Mathias Noe (Karlsruhe Institute Of Technology (Kit))1EO1-4 - 11:15 Feasibility of HTS wind turbines and cost estimation of SC wire in the HTS generators Sungik Pi (Rist)1EO1-6 - 11:30 Experimental tests on a superconducting fault current limiter using three-strand MgB2 wire Xiaoze Pei (The University Of Manchester)1EO1-7 - 11:45 Design and performance test of a resistive type superconducting fault current limiter module Zhiyong Hong (Shanghai Jiaotong University)

1AP1 - LHC magnets , normal magnets 13:30-15:30Chairs: Pasquale Fabbricatore, Ben SheperdPlace: Exhibition hall

1AP1-1 - PBN: 1 Dipole Magnets for the Ring Ring option of the LHeC Davide Tommasini (CERN)1AP1-2 - PBN: 2 Magnet System for the SuperKEKB Main Ring Mika Masuzawa (KEK)1AP1-3 - PBN: 3 EMMA pulsed magnets: design and testing Kiril Marinov (Astec, Stfc Daresbury Laboratory)1AP1-4 - PBN: 4 Design and development of separation septa for the CERN PS Booster upgrade Michael Hourican (CERN)1AP1-5 - PBN: 5 Development of the Superconducting Quadrupole Magnet for the SuperKEKB Final Focusing

system Masako Iwasaki (KEK)1AP1-7 - PBN: 6 Analysis of Defective Interconnections of the 13 kA LHC Superconducting Bus Bars Pier Paolo Granieri (CERN, EPFL Lausanne)

1AP2 - Accelerator magnets test results, linacs 13:30-15:30Chairs: Helen Felice, Shlomo CaspiPlace: Exhibition hall

1AP2-1 - PBN: 7 Design and manufacture of a hybrid final focus quadrupole model for CLIC Alexey Vorozhtsov (CERN/Jinr)1AP2-2 - PBN: 8 Design, manufacture and measurements of permanent quadrupole magnets for Linac4 Davide Tommasini (CERN)1AP2-3 - PBN: 9 Coil Winding and Dewar Test Experience for the Superconducting Horizontal Bend Magnet for the

Super High Momentum Spectrometer at JLab Shailendra Chouhan (Facility For Isotope Beam, Michigan State University, East Lansing,

Mi-48824)1AP2-4 - PBN: 10 Design, fabrication, and performance test of HTS superconducting dipole magnet C.K. Yang (NSRRC)1AP2-5 - PBN: 11 Construction and Test of the Magnets for the AEgIS Experiment Alexey Dudarev (CERN)1AP2-6 - PBN: 12 Operational Experience with a Superconducting Octupole Used to Trap Antihydrogen Peter Wanderer (Brookhaven National Laoratory)1AP2-7 - PBN: 13 Variable Permanent Multipole Magnets Yoshihisa Iwashita (Kyoto Univ.)1AP2-9 - PBN: 14 Design and manufacture of a compact inter-cryomodule combined corrector magnet for the HIE-

ISOLDE project at CERN Jérémie Bauche (CERN)

1AP3 - Fast cycled accelerator magnets 13:30-15:30Chairs: Jean-Michel Rifflet, Pierre ManilPlace: Exhibition hall

1AP3-1 - PBN: 15 SIS300 fast cycling superconducting quadrupole prototype Sergey Kozub (Institute For High Energy Physics)1AP3-2 - PBN: 16 Research and Development of the AC Magnets for CSNS/RCS Wen Kang (Institute Of High Energy Physics, Beijing, China)1AP3-3 - PBN: 17 Design Studies for the Extraction Septa of FAIR´s SIS100 Synchrotron Hans Mueller (GSI)1AP3-4 - PBN: 18 A Test of HTS Power Cable in Sweeping External Magnetic Field Henryk Piekarz (Fermilab)1AP3-6 - PBN: 19 Magnets technology activities and status at IMP Ping Yuan (Institute Of Modern Physics, Chinese Academy Sciences.)PBN: Poster Board Number


1AP3-7 - PBN: 20 SIS100 Dipole Magnet Optimisation using Measured Local Toroidal Multipoles Pierre Schnizer (GSI Helmholtzzentrum Fuer Schwerionenforschung Mbh)1AP3-8 - PBN: 21 Construction of the CERN Fast Cycled Magnet Prototype Luca Bottura (CERN)

1BP1 - Electrical analyses 13:30-15:30Chairs: Emmanuele Ravaioli, Vitaly VysotskyPlace: Exhibition hall

1BP1-2 - PBN: 23 Transient Electrical Voltages within ITER Poloidal Field Coils Stefan Fink (Karlsruhe Institute Of Technology (Kit))1BP1-3 - PBN: 24 Resonance characteristics and maximum turn voltage of JT-60SA EF coil Haruyuki Murakami (Japan Atomic Energy Agency)1BP1-4 - PBN: 25 Paschen Problems in Large Coil Systems Christian Lange (Karlsruher Institut Fuer Technologie, Karlsruhe, Germany)1BP1-5 - PBN: 26 The Quench Detection-Wire-Feedthrough-Plug-in of W7-X Kerstin Rummel (Max-Planck-Institut Fuer Plasmaphysik)1BP1-6 - PBN: 27 Reliability enhancement of force cooled superconducting magnets for fusion Denis Ivanov (Rrc Kurchatov Institute)1BP1-7 - PBN: 28 Magnetically based Acceptance Procedures for ITER Toroidal Coils Raffaele Martone (Seconda UniversitÃ Â Di Napoli, Italy)1BP1-8 - PBN: 29 Electromagnetic and Structural Analysis of ITER Central Solenoid Insert Coil Andrei Khodak (Princeton Plasma Physics Laboratory,)1BP1-9 - PBN: 30 Optimization of Current Waveforms in ITER Correction Coils Alessandro Formisano (Seconda UniversitÃ Â Di Napoli)1BP1-10 - PBN: 22 Performance of the quench detection system for the KSATR CS coil Yong Chu (National Fusion Research Institute)

1BP2 - Conductor and joint Analyses 13:30-15:30Chairs: Nori Koizumi, Tan YunfeiPlace: Exhibition hall

1BP2-1 - PBN: 31 Influence of external magnetic field on AC losses at EF coil joints of JT-60SA Kazuya Nakamura (Sophia University)1BP2-2 - PBN: 32 Optimal Pitch Analysis of Contacting Strand Number and Lengths with Cu Sleeves at CIC Joints Shinobu Nakazawa (Tohoku University)1BP2-3 - PBN: 33 Analysis of 3-D Locations of All Strands in CIC Conductor Takataro Hamajima (Tohoku University)1BP2-4 - PBN: 34 Numerical analysis of ITER TF samples with different cabling pattern based on joint interstrand

resistance measurement Ezra van Lanen (University Of Twente)1BP2-5 - PBN: 35 Influence of Strain Distribution on Joint Resistance in Mechanical Lap Joint of a Stacked HTS

Conductor Satoshi Ito (Tohoku University)1BP2-6 - PBN: 36 Weibull analysis of the current sharing temperature evolution in Nb3Sn CICC Davide Uglietti (EPFL-CRPP, 5232 Villigen Psi, Switzerland)1BP2-7 - PBN: 37 Curvature Analysis of Nb3Sn Strands in React and Wind CIC conductor for Fusion Magnets Tsuyoshi Yagai (Sophia University)

1CP1 - Pulsed magnets 13:30-15:30Chairs: Charles Swenson, J. BeardPlace: Exhibition hall

1CP1-1 - PBN: 38 A high field pulsed magnet for pulsed field magnetization of (re)BCO superconducting bulks Richard Lewin (The University Of Oxford)1CP1-2 - PBN: 39 Design and Tests of a 40 Tesla Long Pulse Magnet Energized by Battery Yiliang Lv (Wuhan National High Magnetic Field Center)1CP1-3 - PBN: 40 Development Program of pulsed Magnet at WHMFC Liang Li (Huazhong University Of Science And Technology)

1DP1 - High Field Magnets for MRI NMR 1 13:30-15:30Chairs: Quiliang Wang, John VoccioPlace: Exhibition hall


1DP1-1 - PBN: 41 Helium pressure increase during a quench of the Iseult coil Chantal Meuris (CEA Saclay)1DP1-2 - PBN: 42 Transient pressure rise in a heated helium channel Walid Abdel Maksoud (CEA)1DP1-3 - PBN: 43 REBCO layer-wound coil tests under electromagnetic forces in an external magnetic field of up to

17.2 T Shinji Matsumoto (National Institute For Materials Science)1DP1-4 - PBN: 44 Structural Design of a 9.4T Whole-body MRI Superconducting Magnet Yinming Dai (IEE CAS)1DP1-5 - PBN: 45 Development of NbTi/Cu superconducting joints for a 9.4T MRI application Junsheng Cheng (IEE CAS)1DP1-6 - PBN: 46 MgB2 for MRI Magnets: Test Coils and Superconducting Joints Results Dong Keun Park (Massachusetts Institute Of Technology)1DP1-7 - PBN: 47 A 7T actively shielded magnet for animal MRI Xiaohua Jiang (Tsinghua University)1DP1-8 - PBN: 48 Thermal analysis of actively shielded gradient coils for a 7T animal MRI system Siyuan Liu (Tsinghua University)

1DP2 - High Field Magnets for MRI NMR 2 13:30-15:30Chairs: Seungyong Hahn, Thierry SchildPlace: Exhibition hall

1DP2-1 - PBN: 49 Design of Shim Coils Using a Hybird Optimization Algorithm for Magnetic Resonance Imaging Zhipeng Ni (IEE CAS)1DP2-2 - PBN: 50 A Novel Target-Field Method Using LASSO Algorithm for Shim and Gradient Coil Design Geli Hu (IEE CAS)1DP2-3 - PBN: 51 Numerical and experimental study to fabricate the new type compact NMR device using stacked

HTS bulks with cryocooled operation Seokbeom Kim (Okayama Univearsity)1DP2-4 - PBN: 52 On the 600 MHz HTS Insert for the 1.3 GHz NMR Magnet Juan Bascunan (Massachusetts Institute Of Technology)1DP2-5 - PBN: 53 A Compact Magnet for NMR Spectroscopy: A Stack of YBCO Annuli, Thin-Film Plates and Bulk

Disks Seungyong Hahn (Massachusetts Institute Of Technology)1DP2-6 - PBN: 54 No-Insulation Winding Techniques for Premature-Quench-Free NbTi MRI Magnets Seungyong Hahn (Massachusetts Institute Of Technology)1DP2-7 - PBN: 55 Design and Manufacture of a Multi-Tesla Permanent Magnet Zheng Wang (Institute Of Electrical Engineering,Chinese Academy Of Sciences)1DP2-8 - PBN: 56 Reduction of Current Inhomogeneity in Superconducting Windings Composed of HTS Tapes Kazuhiro Kajikawa (Kyushu University)

1EP1 - AC cables 13:30-15:30Chairs: Jae-Young Yoon, Sastry PamidiPlace: Exhibition hall and Level 1 entrance hall

1EP1-1 - PBN: 57 Design of a termination for the YBCO HTS power cable Li Ren (Huazhong University Of Science And Technology)1EP1-2 - PBN: 58 The Current Distribution among Layers of Single Phase HTS Cable Conductor Yibo Zheng (North China Electric Power University)1EP1-3 - PBN: 59 Numerical analysis on the electric field distribution of the Stress-Cone in HTS Cable Terminals Qiushuang Sun (Key Laboratory Of Hv And Emc Beijing)1EP1-5 - PBN: 60 Installation and Power Grid Demonstration of a 22.9kV, 50MVA High Temperature Superconducting

Cable in KEPCO Song-Ho Sohn (Kepco Research Institute)1EP1-6 - PBN: 61 Overcurrent Tests and Numerical Simulations on 66-kV-Class RE123 High-Temperature

Superconducting Model Cable Xudong Wang (Waseda University)1EP1-7 - PBN: 62 Current Margin of 275 KV Class HTS Power Cable with Superconducting joint against Fault

Current Xudong Wang (Waseda University)1EP1-8 - PBN: 63 Current Distribution of Superconducting Cables with Metal Form Hong Wei Liu (North China Electric Power University)1EP1-10 - PBN: 64 Current Margin of 66 kV Class HTS Power Cable against Fault Current Xudong Wang (Waseda University)

PBN: Poster Board Number


1EP1-11 - PBN: 65 Expanded adoption of HTS cables in the metropolitan area and its adverse impact on the stability of the neighboring power gridHee Jin Kim (Yonsei University)

1E P2 - S MES designs and tests 13:30-15:30Chairs: Kyeong Dal Choi, Bin WeiPlace: Level 1 entrance hall

1EP2-1 - PBN: 66 Experimental Research on the Active Power Conversion Using HTS Hybrid SMESJiahui Zhu (China Electric Power Research Institute)

1EP2-2 - PBN: 67 Construction, Testing and Operation of a 1 MJ HTS Magnet in the Superconducting Power SubstationJingye Zhang (The Key Laboratory Of Applied Superconductivity, The Institute Of Electrical Engineering, Chinese Academy Of Sciences)

1EP2- 3 - PBN: 68 Experimental Investigation Into Characteristics Of Micro-SMES’ MagnetBin Wei (China Electric Power Research Institute)

1EP2-4 - PBN: 69 SMES optimization for high energy densitiesPascal Tixador (Grenoble Inp)

1EP2-5 - PBN: 70 Field test of a 0.5MVA/1MJ SMESGuo Wenyong (Institute Of Electrical Engineering, Chinese Academy Of Sciences)

1EP2-6 - PBN: 71 Design of HTS toroidal magents for a 5 MJ SMESChan Park (Seoul National University)

1EP2-7 - PBN: 72 Optimization of Superconducting Magnetic Energy Storage Con�gurations using a Quantum-Inspired Evolutionary AlgorithmS. L. Ho (The Hong Kong Polytechnic University)

1E P3 - FCL in sytems 13:30-15:30Chairs: Janusz Kozak, Alexander UsoskinPlace: Level 1 entrance hall and Hall Callelongue

1EP 3-1 - PBN: 7 3 The E�ect of SFCL on Loop Power Distribution System Tied With Two SubstationsSung-Min Cho (Soongsil Univ.)

1EP 3-2 - PBN: 76 Study on Coordination of Protective Relays Between Primary Feeder and Interconnecting Transformer Grounded by SFCL of Wind FarmSung-Min Cho (Soongsil Univ.)

1EP 3-3 - PBN: 77 Study on SFCL Application in The Automatic Power Changeover Switch System of the Electric RailwayHeesang Shin (Soongsil Univ.)

1EP 3-4 - PBN: 78 Coordinated Control of Optimized SFCL and SMES for Improvement of Power System Transient StabilityIssarachai Ngamroo (King Mongkut’S Institute Of Technology Ladkrabang)

1EP 3-5 - PBN: 79 Optimal Placement of Superconducting Fault Current Limiter Using Design of Experiment MethodSang-Bong Rhee (Allegiance To Technology)

1EP 3-6 - PBN: 80 Towards a Self-Healing Electric Grid with Superconducting Fault Current ControllersJae Woong Shim (Yonsei University)

1EP 3-7 - PBN: 81 Improvement of Protection Coordination of Protective Devices through Application of a SFCL in a Power Distribution System with Dispersed GenerationSung-Hun Lim (Professor)

1EP 3-8 - PBN: 82 Analysis on Fault Current Limiting E�ect using SFCL in a Loop Circuit for Its Application to a Power Transmission SystemMyong-Hyon Kim (School Of Electrical Engineering)

1EP 3-9 - PBN: 8 3 Analysis on Protection Cooperation of Protective Devices with a SFCL due to the Application Location of a Dispersed Generation in a Power Distribution SystemSung-Hun Lim (School Of Electrical Engineering)

1EP 3-10 - PBN: 74 Study on Protection Scheme using SFCL of the Electric Railway System Applied The Automatic Power Changeover Switch SystemHeesang Shin (Soongsil Univ.)

1EP 3-11 - PBN: 75 Comparative Positioning of Resistive type super conducting fault current limiter in AC and DC MicrogridsAmir Khan Umer (Hanyang University)

1E P4 - Machines 13:30-15:30Chairs: Elena Perini, Jing Li


Place: Hall Callelongue

1EP4-1 - PBN: 85 Electromagnetic Analysis and Design of Two-pole High-power Line-start Permanent Magnet Synchronous Motor

Yaojing Feng (Huazhong University Of Science And Technology)1EP4-2 - PBN: 86 Eddy Current Loss Analysis of High-Speed Machines with Network-Field Coupled Multislice

Time-Stepping Finite-Element Method Shuangxia Niu (The Hong Kong Polytechnic University)1EP4-3 - PBN: 87 Design and Analysis of a New Fault-Tolerant Linear Permanent-Magnet Motor for Maglev

Transportation Applications Wenxiang Zhao (Jiangsu University)1EP4-4 - PBN: 88 Sensorless Closed-loop Control of Switched Reluctance Motor for Medium-High speed

Operation Jun Cai (Nanjing University Of Aeronautics And Astronautics)1EP4-5 - PBN: 89 A single-sided linear synchronous motor with high temperature superconducting bulk magnet as

the excitation system Jing Li (Applied Superconductivity Laboratory, Southwest Jiaotong University)1EP4-6 - PBN: 90 Performance of induction/synchronous motor having MgB2 cage windings for liquid hydrogen

circulation pump Taketsune Nakamura (Kyoto University)1EP4-7 - PBN: 91 Sensorless start-up control of Switched Reluctance Motor Based on Three-phase Full-cycle

Inductance Sub region Jun Cai (Nanjing University Of Aeronautics And Astronautics)1EP4-8 - PBN: 92 Sensorless Control of Switched Reluctance Motor with Minimum Number of Current Sensors Jun Cai (Nanjing University Of Aeronautics And Astronautics)

1EP5 - FCL behavior 13:30-15:30Chairs: Zhiyong Hong, Xiaoze PeiPlace: Hall Callelongue

1EP5-1 - PBN: 93 Enhancement of Electrolyzer Control Effect by Resistive SFCL for Stabilization of Isolated Power System

Issarachai Ngamroo (King Mongkut’S Institute Of Technology Ladkrabang)1EP5-2 - PBN: 95 Improvement of the Transient Stability in Transformer-Type SFCL using the Symmetrical Component

Calculus Yong-Sun Cho (Chosun University)1EP5-3 - PBN: 96 Transient characteristics of flux-coupling type SFCL based on fault type in three phase power

system Byung-Ik Jung (Chosun University)1EP5-4 - PBN: 97 Current limiting characteristics of a transformer with a SFCL in the third winding Hyo-Sang Choi (Chosun University)1EP5-5 - PBN: 98 Dynamic Characteristics of a 22.9 kV Hybrid SFCL for Sort-Circuit Test Considering a simple

Coordination of Protection System in Distribution Networks Woo-Seok Kim (Kepco Research Institute)1EP5-6 - PBN: 99 The Thermal Protection Relay and Protection Scheme for the Superconducting Power Cables in

Icheon Substation Hansang Lee (Korea University)1EP5-7 - PBN: 100 Study on Application Method of Superconducting Fault Current Limiter for Protection Coordination

of Protective Devices in a Power Distribution System Jinseck Kim (School Of Electrical Engineering)1EP5-8 - PBN: 101 Recovery behavior of a flux-coupling type SFCL under transient state Kyoung Hun Ha (Chosun University)1EP5-9 - PBN: 102 Analysis on Current Limiting Reduction through Application of a SFCL in a Bus Tie of a Power

Distribution System Jinseck Kim (School Of Electrical Engineering)1EP5-10 - PBN: 94 Recovery Characteristics for various Fault Type of 3-phase Transformer Type SFCL Depending on

Reclosing Operation Soo Geun Choi (Chosun University)

1FP1 - Industrial applications Linear Maglev 13:30-15:30Chairs: Antonio della Corte , Shunsuke OhashiPlace: Hall Callelongue and Auditorium foyer

1FP1-1 - PBN: 103 Principle experiments on the levitation of iron block using one pair of superconducting bulk magnets

Akira Ninomiya (Seikei University)



1FP1-2 - PBN: 104 Improvement of magnetic levitation properties on levitation system Using GdBCO Bulk Superconductors

Tomoaki Takao (Sophia University)1FP1-3 - PBN: 105 Design and Numerical Analysis of Linear Generator of Multiple HTS Suspension Electromagnets

in EMS Maglev Model Yoondo Chung (The University Of Suwon)1FP1-4 - PBN: 106 Design, fabrication and operation results of Prototype HTS Electromagnet for EMS-based

Maglev Chang Young Lee (Korea Railroad Research Institute)1FP1-5 - PBN: 107 Influence of ramp angle on levitation characteristics of HTS maglev vehicle Siting Pan (Asclab)1FP1-6 - PBN: 108 Effect of the damper coils on the guideway displacement in the superconducting magnetically

levitated bogie Shunsuke Ohashi (Kansai University)1FP1-7 - PBN: 109 Influence of the Pre-load Process on the Levitation Performance of a Magnetized Bulk HTS Wei Liu (Southwest Jiaotong University)1FP1-9 - PBN: 110 A hybrid-levitation sculpture model combined with permanent magnet levitation and bulk high-Tc

superconducting levitation Jun Zheng (Applied Superconductivity Laboratory (Asclab), Southwest Jiaotong

University)1FP1-10 - PBN: 111 Evaluation on Variations of Electrical Characteristics of a Superconducting Electro-magnet by

Operations of Control Coil in a Hybrid Electro-Magnetic Levitation System You Ho Kim (Yonsei University)1FP1-11 - PBN: 112 A Study on the Design of Iron-Core Shape for a Hybrid Electro-Magnetic Levitation System Young Jin Hwang (Yonsei University)1FP1-12 - PBN: 113 Operation safety for evaluation of high temperature superconducting Maglev vehicle Donghui Jiang (Applied Superconductivity Laboratory Southwest Jiaotong University)

1GP1 - Nb3Sn I: strain and electrical characterization 13:30-15:30Chairs: Alexander Vostner, Ildar AbdyukhanovPlace: Auditorium foyer

1GP1-1 - PBN: 114 Comparison between spatial periodic and homogeneous transverse stress loading on ITER TF strands

Arend Nijhuis (University Of Twente)1GP1-2 - PBN: 116 Implementation and analysis of ITER Strand Test of CNDA for World-Wide Benchmarking Fang Liu (Institute Of Plasma Physics,Chinese Academy Of Sciences)1GP1-4 - PBN: 117 Critical current response under axial and transverse stress of new generation PIT Nb3Sn wires Giorgio Mondonico (Universitiy Of Geneva)1GP1-5 - PBN: 118 Modeling of current distribution in multifilamentary strands subjected to bending Yasuyuki Miyoshi (University Of Twente)1GP1-6 - PBN: 119 Prebending effect on three-dimensional strain in CuNb/(Nb, Ti)3Sn wires under a tensile load Kohki Takahashi (Institute For Materials Research, Tohoku University)1GP1-7 - PBN: 120 Extended fatigue testing of Nb3Sn strand for fusion applications Manan Sheth (National High Magnetic Field Laboratory)1GP1-8 - PBN: 121 Full Characterization of the 1 mm PIT Nb3Sn strands for the 13 T Fresca II Magnet Bernardo Bordini (CERN)1GP1-9 - PBN: 122 World-wide Benchmarking of ITER Internal Tin Nb3Sn and Nb-Ti Strands Test Facilities Ian Pong (ITER)1GP1-10 - PBN: 115 Influence of the transverse pressure on the critical current of ceramic-insulated Nb3Sn

conductors. Etienne Rochepault (CEA Saclay)

1GP2 - Nb3Sn II: strand development 13:30-15:30Chairs: Victor Pantsyrny, Yasuyuki MiyoshiPlace: Auditorium foyer

1GP2-1 - PBN: 123 Manufacture of bronze route Nb3Sn superconducting strands and large current capacity cables for ITER TF coil

Seiji Tsuzuku (Hitachi Cable Ltd.)1GP2-2 - PBN: 124 Progress of bronze processed Nb3Sn strands for ITER in WST Pingxiang Zhang (State Key Laboratory Of Solidification Processing, Northwestern

Polytechnical University, Xi’An, Shaanxi, 710072, China)1GP2-3 - PBN: 125 The Study of Ti Adding into Nb3Sn Strands Chunguang Li (Western Superconducting Technologies Co., Ltd.)1GP2-4 - PBN: 126 The Design Optimization of Internal Tin Nb3Sn Stands for ITER Project


Chengju Xiao (Western Superconducting Technologies, Co. Ltd)1GP2-5 - PBN: 127 Increase of the critical current strain tolerance of Nb3Sn wires by hot isostatic pressing Bernd Seeber (University Of Geneva)1GP2-6 - PBN: 128 Production of Nb3Sn Bronze Route Strands With High Critical Current Ildar Abdyukhanov (Bochvar Research Institute Of Inorganic Materials)1GP2-7 - PBN: 129 The RRR parameter of the ITER type bronze-route Cr-coated Nb3Sn strands after different heat

treatments Victor Pantsyrny (Project Center ITER, Russian Federation Domestic Agency, 123182

Moscow, Russia)

1GP3 - A15 stands and cables 13:30-15:30Chairs: Najib Cheggour, Jianwei LiuPlace: Auditorium foyer

1GP3-1 - PBN: 130 Magnetically stable RHQT Nb3Al superconducting wire with Cu interfilamentary barrier Takao Takeuchi (National Institute For Materials Science)1GP3-2 - PBN: 131 Development of Nb3Al Rutherford cable for high-field accelerator magnet applications Kiyosumi Tsuchiya (KEK)1GP3-3 - PBN: 132 Strain Dependence Studies on Nb3Al Wires for Future Accelerator Magnets Xinzhe Jin (KEK (Inter-University Research Institute Corporation High Energy Accelerator

Research Organization))1GP3-4 - PBN: 133 Novel type of aluminum-alloy jacketed Nb3Sn superconductors manufactured by friction stir

welding technique Masahiro Sugimoto (Furukawa Electric Co.Ltd.)1GP3-5 - PBN: 134 Assessment of the fluence dependence of the critical current density of multifilamentary Nb3Sn

wires Thomas Baumgartner (Vienna University Of Technology, Atominstitut)1GP3-6 - PBN: 135 An Experimental Setup to Measure the Minimum Trigger Energy for Magneto-Thermal Instability

in Nb3Sn Strands Eelis Takala (CERN)1GP3-7 - PBN: 136 Nb3Sn cable development for the 11 T DS Dipole Demonstration Model Marianne Bossert (Fermilab)1GP3-8 - PBN: 137 Studies of Nb3Sn strands and cables based on the Restacked-Rod process for high-field

accelerator magnets Ryuji Yamada (Fermilab)

1HP1 - Cryogenics I 13:30-15:30Chairs: Ryuji Maekawa, Rob Van WeelderenPlace: Auditorium foyer

1HP1-1 - PBN: 138 Cryogenic design of the JT-60SA Toroidal Field Coil Test Facility Walid Abdel Maksoud (CEA)1HP1-2 - PBN: 140 Development of the magnetic refrigerator operating between 80K and 20K Youngkwon Kim (Kaist)1HP1-3 - PBN: 141 Cryogenic system of the ?troitsk nu-mass? set-up Evgeny Geraskin (Institute For Nuclear Research, Ras)1HP1-4 - PBN: 142 Analysis of the EAST cryogenic system behavior during plasma pulse discharge Liangbing Hu (Institute Of Plasma Physics Chinese Academy Of Sciences)1HP1-6 - PBN: 143 Safe operation analysis of cryogenic system before gas-cooled current lead loading Fengyu Xu (Harbin Institute Of Technology)1HP1-8 - PBN: 144 Thermal hydraulic analysis of transients to support the ITER cryogenics design Nikolay Shatil (Efremov Institute, Russia)1HP1-9 - PBN: 145 Effect of Hydraulic Impedance on the Cool Down of Superconducting Magnet System of ITER Ananta Sahu (Institute For Plasma Research)1HP1-10 - PBN: 139 The helium behavior in the PF transfer line during operation Lee Hyunjung (National Fusion Research Institute)

1HP2 - Cryogenics II 13:30-15:30Chairs: Egbert Fischer, Francois MilletPlace: Auditorium foyer

1HP2-1 - PBN: 146 Increase of cooling performance of conduction cooled superconducting coils using high thermal conduction plastic

Tomoaki Takao (Sophia University)



1HP2-2 - PBN: 149 Cooling Consideration of HTS Power Devices Cooled by Slush Nitrogen Shuichiro Fuchino (National Institute Of Advanced Industrial Science And Technology

(Aist))1HP2-3 - PBN: 150 Practical application of a gas-gap type thermal switch sealed naturally at atmospheric environment

in a real conduction- cooled superconducting magnet Baozhi Zhao (IEE CAS)1HP2-4 - PBN: 151 The design of cryogen-free cryostat for pulsed high magnetic field based on GM cryocooler Shaoliang Wang (Huazhong University Of Science & Technology)1HP2-5 - PBN: 152 Development of HTS insert cryostat for high field superconducting magnet Yeon Suk Choi (Korea Basic Science Institute)1HP2-6 - PBN: 153 Finite Element Modeling in 3D of the impact of the superfluid helium filled micro-channel-network

on the heat transfer through LHC type cable insulation Erwin Bielert (University Of Twente)1HP2-7 - PBN: 154 Sub-cooled Liquid Nitrogen system for Cooling HTS synchronous Motor Anbin Chen (Harbin Institute Of Technology)1HP2-8 - PBN: 155 Analytical and experimental study on the LN2 self-pressurization for HTS power applications Hee-Sun Kim (Kepco)1HP2-9 - PBN: 156 The Cryostat Design of the R3B-Glad Magnet Patrick Graffin (CEA Saclay, Irfu)1HP2-10 - PBN: 147 The Effect of LNe on the Thermal/Electrical Stability of a Cooling System Using Mixed Cryogen

for an HTS Magnet Kwang Lok Kim (Korea University)1HP2-11 - PBN: 148 The Testing of a Cooling System Using a Solid Argon (SAr)-LN2 Mixture for a High-Tc

Superconducting Fault Current Limiter Jung-Bin Song (Korea University)

1IP1 - Quench in HTS 13:30-15:30Chairs: Yoshinori Yanagisawa, Marco BreschiPlace: Auditorium foyer and Level 0 hall

1IP1-1 - PBN: 165 The characteristics of the normal-zone propagation of the non-insulated ReBCO coils with magnetic field and Cryocooled operation

Seokbeom Kim (Okayama University)1IP1-2 - PBN: 166 Simulation of Chain of Quenches on Toroidal HTS-SMES Taking Account of B-J-?

Characteristics Yuki Oga (Hokkaido University)1IP1-3 - PBN: 167 Effect of coil load factor on the temporal drift of the central magnetic field due to relaxation of the

screening current for an YBCO-coated conductor coil at 77 K Yoshinori Yanagisawa (Chiba University)1IP1-4 - PBN: 168 Effects of Local Hot-Spots on the Quench and Recovery Behavior of a Racetrack Pancake Coil

Wound with a GdBCO Coated Conductor Dong Gyu Yang (Korea University)1IP1-5 - PBN: 169 Quench and Recovery characteristics of a Solid Cryogen Cooled Racetrack Double Pancake Coil

Wound with a ReBCO Coated Conductor (CC) Jung-Bin Song (Korea University)1IP1-6 - PBN: 170 Thermal and Electrical Properties of Stacked GdBCO CCs with Various Bending Diameters and

Pressures Kwang Lok Kim (Korea University)1IP1-7 - PBN: 171 Impacts of insulation materials on quench behavior, mechanical structure and quench detection

in YBCO coils evaluated via a three dimensional coil model Wan Kan Chan (Department Of Material Science And Engineering, North Carolina State

University, Raleigh, Nc, Usa)1IP1-8 - PBN: 172 Overturning Force Simulation on Chain of Quenches of Toroidal HTS-SMES So Noguchi (Hokkaido University)1IP1-9 - PBN: 173 Over-Current Characteristics of ReBCO CCs with Various Stabilizer Patterns Yoon Hyuck Choi (Korea University)

1IP2 - HTS magnets design 13:30-15:30Chairs: Ziad Melhem, Wolfgang WalterPlace: Level 0 hall

1IP2-1 - PBN: 174 Mechanical losses due to frictional heat and coil bobbins having negative thermal expansion property in BSCCO coils

Tomoaki Takao (Sophia University)1IP2-2 - PBN: 175 Properties of an high temperature superconducting magnet wound with wider conductor at the top

and the bottom pancake windings


Myunghun Kang (Soonchunhyang University)1IP2-3 - PBN: 176 Notable weakness against cleavage stress for YBCO-coated conductors and its effect on the

YBCO coil performance Takuya Takematsu (Sophia University)1IP2-4 - PBN: 177 Characteristics of REBCO Pancake Coil Masanori Dabio (Fujikura Ltd.)1IP2-5 - PBN: 178 Numerical Study of Optimization Design of High Temperature Superconducting Field Winding in

20 MW Synchronous Motor for Ship Propulsion Satoshi Fukui (Niigata University)1IP2-6 - PBN: 179 ReBCO Pancake Coils with Partial Insulation for Protection-Free HTS AC Power Applications Yoon Hyuck Choi (Korea University)1IP2-7 - PBN: 180 Construction and Test of HTS Racetrack Coils Without Turn-to-Turn Insulation for Superconducting

Rotating Machines Young-Gyun Kim (Korea University)

1LP1 - Permanent magnet 13:30-15:30Chairs: Henryk Piekarz, Tetsuo OkaPlace: Level 0 hall

1LP1-1 - PBN: 181 Novel Adjustable Permanent Magnet Quadrupoles for the CLIC Drive Beam Decelerator Ben Shepherd (Stfc Daresbury Laboratory)1LP1-2 - PBN: 186 Magnetic Field Distribution of Permanent Magnet Magnetized by Static Magnetic Field generated

by HTS Bulk Magnet Tetsuo Oka (Niigata University)1LP1-3 - PBN: 187 Design and optimization of a linear permanent magnet vernier machine Wenlong Li (The University Of Hong Kong)1LP1-4 - PBN: 188 Comparison of Permanent Magnet Vernier Machines Jiangui Li (The University Of Hong Kong)1LP1-5 - PBN: 189 Quantitative Comparison of Double-stator Permanent Magnet Vernier Machines With and Without

HTS Bulks Chunhua Liu (The University Of Hong Kong)1LP1-6 - PBN: 190 A Linear Stator Permanent Magnet Vernier HTS Machine for Wave Energy Conversion Yi Du (Southeast University)1LP1-7 - PBN: 191 Design and Analysis of Magnet Proportioning for Dual-Memory Machines Fuhua Li (The University Of Hong Kong)1LP1-8 - PBN: 192 A flux-modulated PM motor with an improved structure and its analysis using finite-element

method W.N. Fu (The Hong Kong Polytechnic University)1LP1-9 - PBN: 193 Design and Optimization of High-power Permanent Magnet Synchronous Torque Motor for

Numerical Rotary Table Yaojing Feng (Huazhong University Of Science And Technology)1LP1-10 - PBN: 182 Magnetic Qualification of Permanent Magnet Quadrupoles for CERN Linac4 Marco Buzio (CERN)1LP1-11 - PBN: 183 Analysis of Magnetizing Process Using Discharge Current of Capacitor by T-? Method Dandan Li (Hebei University Of Technology)1LP1-12 - PBN: 184 Dual-rotor Multiphase Permanent Magnet Machine with Harmonic Injection to Enhance Torque

Density Jin Wang (Huazhong Univ. Of Sci. & Tech.)1LP1-13 - PBN: 185 A Novel Outer-rotor Axial-flux-modulated Permanent Magnet Generator for Gearless Drive Yaojing Feng (Huazhong University Of Science And Technology)

1BO - ITER and JT-60SA magnet procurement 16:00-18:00Chairs: Hannu Rajainmaki, Lutz WegenerPlace: Endoume

1BO-1 - 16:00 Status of the F4E Procurement of the EU ITER TF Coils(Invited) Alessandro Bonito-Oliva (Fusion For Energy)1BO-2 - 16:30 Statistical Analysis of Large-Scale Industrial Production of Superconducting Strand for the ITER

Project Alexander Vostner (ITER)1BO-3 - 16:45 The manufacturing of the superconducting magnet system for the JT-60SA Kiyoshi Yoshida (Japan Atomic Energy Agency)1BO-4 - 17:00 Starting EU production of strand and conductor fo r JT-60SA Toroidal Field coils Louis Zani (Fusion For Energy)1BO-5 - 17:15 Development of ITER Toroidal Field Coil in Japan



Norikiyo Koizumi (JAEA)1BO-6 - 17:30 Progress in production and qualification of stainless steel jacket material for the conductor of the

ITER Central Solenoid Stefano Sgobba (CERN)1BO-7 - 17:45 Status and Achievements in Production of ITER TF Conductors and PF Cables in Russian Cable

Institute Vitaly Vysotsky (Russian Scientific R&D Cable Institute)1BO-8 - 18:00 Mass Production of Nb3Sn Conductors for ITER Toroidal Field Coils in Japan Yoshikazu Takahashi (Japan Atomic Energy Agency)

1EO2 - Power Applications 2 16:00-18:00Chairs: Pascal Tixador, Dai ShaotaoPlace: Auditorium

1EO2-5 - 16:00 Development of a 10kA HTS DC Power Cable(Invited) Liye Xiao (Institute Of Electrical Engineering, CAS)1EO2-1 - 16:30 SMES to supply an electromagnetic launcher Arnaud Badel (CNRS/Dga)1EO2-2 - 16:45 New HTS 2G round wires Christian-Eric Bruzek (Nexans France)1EO2-3 - 17:00 Developmental Results of 154kV, 1GVA HTS Cable in DAPAS Program Jeonwook Cho (Keri (Korea Electrotechnology Research Institute))1EO2-4 - 17:15 Study of AC Losses in a 1-m Long, High-Temperature Superconducting Power Cable Made From

46-mm Wide, 2G Coated Conductor John Voccio (American Superconductor Corporation)1EO2-6 - 17:30 Development and Demonstration of a 1MJ High-Tc SMES Shaotao Dai (Institute Of Electrical Engineering, CAS)

1IO2 - HTS design analysis and performance 16:00-18:00Chairs: Huub Wejers, Milan PolakPlace: Callelongue

1IO2-1 - 16:00 A Practical Fit Function to Describe the Critical Transport Current as a Function of Field and Angle for REBCO Tape Conductors at Fixed Low Temperatures in High Magnetic Fields

David Hilton (NHMFL-Mst-FSU)1IO2-2 - 16:15 Experimental Study on Several Particular Issues about Quench Behaviors of High Temperature

Superconductors Liyang Ye (North Carolina State University)1IO2-3 - 16:30 Study and experiment on AC current carrying property of high-Tc superconducting tapes Liyi Li (Harbin Institute Of Technology)1IO2-4 - 16:45 Magnetic field in the winding of a YBCO pancake coil: experiments and calculations Milan Polak (Institute Of Electrical Engineering)1IO2-5 - 17:00 Premature quenches due to existence of a degraded layer in YBCO-coated conductor pancake

coils Yoshinori Yanagisawa (Chiba University)1IO2-6 - 17:15 AC Loss measurement in a single pancake coil wound with YBCO Roebel Cable Zhenan Jiang (Industrial Research Limited)1IO2-7 - 17:30 Quench analysis of LTS and HTS coils used in wide bore compact high field superconducting

magnets Ziad Melhem (Oxford Instruments Nanoscience)1IO2-8 - 17:45 Layer-wound ReBCO and Bi2212 coils for Superconducting High Field Magnet Applications Ulf Trociewitz (National High Magnetic Field Laboratory)

Tuesday, 13 September 2011

PT2 - 100 Years of Superconductivity and 50 Years of Superconducting Magnets 8:30-9:15Speaker: Martin Wilson (Consultant)Chairs: Jean-Luc Duchateau, Subrata PradhanPlace: Auditorium

PT3 - Current status of HTS power applications after 100 years of superconductivity 9:15-10:00Speaker: Minwon Park (Changwon National University, Korea)


Chairs: Mathias Noe, Christian-Eric BruzekPlace: Auditorium

2AO - LHC related magnets and upgrades 10:30-12:30Chairs: Al Zeller (FRIB), Toru Ogitsu Place: Auditorium

2AO-5 - 10: 30 Advanced Accelerator Magnets for Upgrading the LHC(Invited) Lucio Rossi (CERN)2AO-1 - 11:00 Design and Fabrication of a Single-aperture 11T Nb 3Sn Dipole Model for LHC Upgrades

Alexander Zlobin (Fermilab)2AO- 3 - 11:15 Engineering Design and Manufacturing Challenges for a Wide-Aperture, Superconducting

Quadrupole MagnetGlyn Kirby (CERN)

2AO-4 - 11: 30 Analysis of the Nb 3Sn HQ coils dimensional changes during fabricationShlomo Caspi (Lawrence Berkeley National Laboratory)

2AO-6 - 11:45 Test results of HQ01, a 120 mm Bore LARP Quadrupole Magnet for the LHC Luminosity Upgrade*Maxim Martchevsky (Lawrence Berkeley National Laboratory, Berkeley, Ca 94720, U.S.A.)

2C O - High Field Magnets 10:30-12:30Chairs: Kazuo Watanabe , Pierre Pugnat Place: Endoume

2CO-1 - 10: 30 Towards a compact 30 T all-superconducting laboratory magnet and beyondConcetta Beneduce (Bruker Biospin Ag)

2CO-2 - 10:45 Development of layer-wound coated conductor coils at Tsukuba Magnet LaboratoryDavide Uglietti (National Institute For Materials Science, Tsukuba, Japan)

2CO- 3 - 11:00 Application of SuperPower 2G HTS conductor to high �eld applicationsDrew Hazelton (Superpower Inc.)

2CO-4 - 11:15 Copper/stainless steel polyhelix magnetsFlorence Lecouturier (LNCMI - CNRS-Insa-Ujf-Ups, 14 3, Avenue De Rangueil, F- 31400Toulouse)

2CO-5 - 11: 30 The Model Coil for the Superconducting Outsert of the 40T Hybrid MagnetGuangli Kuang (High Magnetic Field Laboratory, Chinese Academy Of Sciences)

2CO-6 - 11:45 CICC Magnet Development at the NHMFLMark Bird (NHMFL-FSU)

2CO-7 - 12:00 Status of the Pulsed-Magnet-Development Program at the Dresden High Magnetic Field LaboratorySergei Zherlitsyn (Hemholtz-Zentrum Dresden-Rossendorf)

2CO-8 - 12:15 An all-superconducting 32 T magnet with YBCO coated conductor high �eld coilsW. Denis Markiewicz (NHMFL)

2G O1 - MgB 2 and HTS materials for magnets 10:30-12:30Chairs: Giovanni Grasso, Giorgio MondonicoPlace: Callelongue

2GO1-1 - 10: 30 MgB2 -an Approach for Manufacturing of MgB2 Wires for Applications in Health CareAndré Aubele (Bruker Eas Gmbh)

2GO1-2 - 10:45 Evidence for long range movement of Bi-2212 within the �lament bundle on melting and its signi�cant e�ect on JCAndrea Malagoli (Asc-NHMFL)

2GO1- 3 - 11:00 High enhancement of the Jc in the HyperTech Research Inc. & ex/in situ Unipress made MgB2 wires, obtained by HIP process under high pressure-their application perspectives.Andrzej Morawski (Institute Of High Pressure Physics, Polish Academy Of Sciences)

2GO1-4 - 11:15 Electro-mechanical measurements in magnetic �eld of a 2kA class HTS Roebel CableChristian Barth (Institute For Technical Physics (Itep), Karlsruhe Institute Of Technology (Kit))

2GO1-5 - 11: 30 Transport and mechanical property evaluation for Cu stabilized PLD-GdBa2Cu 3Oy coated conductorGen Nishijima (National Institute For Materials Science)

2GO1-6 - 11:45 Recent progress of DI-BSCCO wireGoro Osabe (Sumitomo Electric Industries, Ltd)



2GO1-7 - 12:00 Improved methods for heat treating Bi2Sr2CaCu2Ox/Ag round wires and cablesXiaotao Liu (North Carolina State University)

2AP1 - Conventional undulators and wigglers 13:30-15:30Chairs: Michael Green, Michael LammPlace: Exhibition hall

2AP1-1 - PBN: 1 Compact Undulator for Cornell High Energy Synchrotron Source*Alexander Temnykh (Cornell University)

2AP1-2 - PBN: 2 SIRIUS - 3 GEV electron storage ring based on magnets made with permanent magnetic materialsGiancarlo Tosin (Brazilian Synchrotron Light Source)

2AP1- 3 - PBN: 3 Design and fabrication performance of gradient damping wiggler for the ALPHA storage ringCheng-Wei Huang (Nthu)

2AP1-4 - PBN: 4 Magnet for compression of XFEL beam bunchesEduard Bondarchuk (Efremov Institut)

2AP1-5 - PBN: 5 Studies of the beam dynamics e�ects of DEPU at SSRFMiao Zhang (Shanghai Institute Of Applied Physics)

2AP1-6 - PBN: 6 Field correction on an Elliptically Polarized UndulatorJui-Che Huang (National Synchrotron Radiation Research Center)

2AP1-7 - PBN: 7 Magnetic design and �eld characteractics of TPS synchrotron sourceCheng-Hsiang Chang (National Synchrotron Radiation Research Center)

2AP1-8 - PBN: 8 Description of an electromagnetic/permanent magnet helical undulator for fast polarisation switchingFabrice Marteau (Synchrotron Soleil)

2AP2 - Magnets for experiments 13:30-15:30Chairs: Laura Savoldi, Bernhard AuchmannPlace: Exhibition hall

2AP2-1 - PBN: 9 Status of Hall B superconducting magnets for the CLAS12 detector at JLabLionel Quettier (Je�erson Lab)

2AP2-2 - PBN: 10 Progress on the Electron Transport and Tritium Pumping Sections for KATRINWoosik Gil (Institute For Technical Physics, Karlsruhe Insitute Of Technology, Germany)

2AP2- 3 - PBN: 11 Development of longitudinal-gradient magnet for time focusing of ultra-cold neutron with anisotropic inter-poleYasushi Arimoto (Imss, KEK)

2AP2-4 - PBN: 12 Design, Construction, and Performance test of Clas12 Torus MagnetBert Wang (Wang Nmr Inc.)

2AP2-5 - PBN: 1 3 Design, Development, and Performance test of a Dual Double Pancake Modular Coil for Clas12 Polarized Target Solenoid Magnet SystemBert Wang (Wang Nmr Inc.)

2AP2-6 - PBN: 14 Superconducting magnet system for the KEDR detectorAlexandr Barladyan (Budker Institute Of Nuclear Physics)

2AP2-7 - PBN: 15 Development of superconducting solenoid for a c-tau factory detectorAlexey Bragin (Budker Institute Of Nuclear Physics)

2AP2-8 - PBN: 16 R 3B-Glad magnet cold mass manufacture: coils and casings fabrication and integrationGaël Disset (CEA Saclay, Irfu)

2AP2-9 - PBN: 17 THE SMC (Short Model Coil) Nb 3Sn program: FE analysis with 3D ModelingCharilaos Kokkinos (CERN)

2AP3 - NbTi, Project X, S C undulators and wigglers 13:30-15:30Chairs: Francois Kircher, Marta BajkoPlace: Exhibition hall

2AP 3-1 - PBN: 18 Factory acceptance test of the new conduction-cooled superconducting undulator for ANKACristian Bo�o (Babcock Noell Gmbh)

2AP 3-3 - PBN: 19 Development of a planar superconducting undulator for the advanced photon sourceYury Ivanyushenkov (Argonne National Laboratory)

2AP 3-4 - PBN: 20 Superconducting Solenoid Lens for a High Energy Part of a Proton Linac Front EndMichael Tartaglia (Fermilab)

2AP 3-5 - PBN: 21 Low-temperature operation of a Bulk HTSC Staggered Array UndulatorToshiteru Kii (Institute Of Advanced Energy, Kyoto University)


2BP1 - Conductor and joint tests 13:30-15:30Chairs: Nicolai Martovetsky, Arnaud DevredPlace: Exhibition hall

2BP1-1 - PBN: 22 DC performance measurement and evaluation of the ITER CC conductor short sample Yi Shi (CASipp)2BP1-2 - PBN: 23 Self Magnetic Field Measurements on Cable-In-Conduit Conductors for JT-60SA EF-H and EF-L

coils Tetsuhiro Obana (NIFS)2BP1-3 - PBN: 24 Test Results of Three Poloidal Field Conductor Samples in SULTAN Boris Stepanov (EPFL-CRPP)2BP1-4 - PBN: 25 Inventory of pressure drop for JT-60SA coils Jean-Louis Marechal (CEA)2BP1-5 - PBN: 26 Effect of thermal loading on NB3Sn CICC performance Stephen March (Ecole Polytechnique FÃ©dÃ©rale De Lausanne (EPFL), Centre De

Recherches En Physique Des Plasmas (CRPP), Association Euratom-Confédération Suisse, 5232 Villigen Psi)

2BP1-6 - PBN: 27 Electric Resistance Measurement of the KSTAR Superconducting Coils with Small Resistive Joints

Hirofumi Yonekawa (National Fusion Research Institute)2BP1-7 - PBN: 28 Method to evaluate CIC conductor performance by voltage taps Yoshihiko Nunoya (JAEA)2BP1-8 - PBN: 29 Effects of Fast Neutron Irradiation on Nb3Sn and Nb3Al Strands Arata Nishimura (National Institute For Fusion Science)

2BP2 - Design of components 13:30-15:30Chairs: Yoshikazu Takahashi, Vjeran VrankovicPlace: Exhibition hall

2BP2-1 - PBN: 30 Qualification of the joints for ITER Central Solenoid Nicolai Martovetsky (Llnl/Ornl)2BP2-2 - PBN: 31 Design of the ITER PF coils Joints Fabrice Simon (ITER Organization)2BP2-3 - PBN: 32 Qualification phase of key technologies for ITER Correction Coils Arnaud Foussat (ITER Organisation)2BP2-5 - PBN: 33 The European procurement of cold test and case insertion of the ITER toroidal field coils Boris Bellesia (Fusion For Energy)2BP2-6 - PBN: 34 Development of the ITER PF Coils Byung Su Lim (ITER Organization)2BP2-7 - PBN: 35 Mechanical Behavior of the KSTAR Central Solenoid Coil Structure during Thermal Cycling H. K Kim (National Fusion Research Institute)2BP2-8 - PBN: 36 Stress multipliers for coil protection systems and scenario development Peter Titus (Princeton Plasma Physics Laboratory)2BP2-9 - PBN: 37 A simplified mechanical model for the ITER CS coil and support structure Cornelis Jong (ITER Organization)

2CP1 - Hybrid Magnets 13:30-15:30Chairs: Davide Uglietti , Pierre VédrinePlace: Exhibition hall

2CP1-1 - PBN: 38 Hybrid Magnet Design Consisting of a 20 T Superconducting Outsert and a 15 MW Resistive Insert

Kazuo Watanabe (Institute For Materials Research, Tohoku University)2CP1-2 - PBN: 39 Thermal-hydraulic Analysis of a Model Coil for 40 T Hybrid Magnet Superconducting Outsert Yunfei Tan (High Magnetic Field Laboratory, Chinese Academy Of Sciences)2CP1-3 - PBN: 40 Fabrication Technique of Model Coil for a 40-T Hybrid Magnet Superconducting Outsert Wenge Chen (High Magnetic Field Laboratory, Chinese Academy Of Sciences)2CP1-4 - PBN: 41 Heat Treatment of the Model Coil for the 40 T Hybrid Magnet Superconducting Outsert Guangli Kuang (High Magnetic Field Laboratory, Chinese Academy Of Sciences)2CP1-5 - PBN: 42 Design Of The New Grenoble Hybrid Magnet Philippe Fazilleau (CEA)2CP1-6 - PBN: 43 Repair of a short circuit in the superconductiong DC-coil of EDIPO Holger Scheller (Babcock Noell Gmbh)2CP1-7 - PBN: 44 Cable-in-Conduit Fabrication for the Series-Connected Hybrid Magnets



Iain Dixon (National High Magnetic Field Lab)2CP1-8 - PBN: 45 AC losses analysis for a 40 T hybrid magnet model coil

Yunfei Tan (High Magnetic Field Laboratory, Chinese Academy Of Sciences)

2DP1 - Magnets for Medical T herapy Devices 13:30-15:30Chairs: Toru Ogitsu, Brett ParkerPlace: Exhibition hall

2DP1-1 - PBN: 46 The Magnetic Field Design of HITFiL CyclotronQinggao Yao (Impcas)

2DP1-2 - PBN: 47 Design and Development of the MedAustron Fast Chopper DipolesTobias Stadlbauer (Ebg Medaustron)

2DP1- 3 - PBN: 48 Developing spiral sector design method for the K1720 superconducting cyclotronHyunyong Kim (Kirams)

2DP1-4 - PBN: 49 Conceptual Design of a Superconducting Dipole Magnet for a Rotating GantryTetsuhiro Obana (NIFS)

2DP1-5 - PBN: 50 Magnet Design of the Superconducting Cyclotron for Carbon TherapyJoonsun Kang (Kirams)

2DP1-6 - PBN: 51 Development of a Superconducting wiggler magnet for Imaging and Biomedical Application Beamline at SSRFJieping Xu (Shanghai Institute Of Applied Physics. CAS)

2DP1-7 - PBN: 52 Superconducting magnets for accelerator gantries in hadron therapyStefania Farinon (INFN - Sezione Di Genova)

2DP1-8 - PBN: 5 3 Conceptual design of a 260 mm bore 5 T superconducting curved dipole for a Carbon Therapy GantryShlomo Caspi (Lawrence Berkeley National Laboratory)

2E P1 - Transformers 13:30-15:30Chairs: Grzegorz Wojtasiewicz, Yuri LvovskyPlace: Exhibition hall and Level 1 entrance hall

2EP1-1 - PBN: 54 Development of a HTS Power TransformerHidemi Hayashi (Kyushu Electric Power Co,.Inc.)

2EP1-2 - PBN: 55 Experimental investigation of the model of superconducting transformer with the windings made of 2G HTS tapeGrzegorz Wojtasiewicz (Electrotechnical Institute In Warsaw)

2EP1- 3 - PBN: 56 Magnetic leakage �eld analysis and additional loss calculation of coverter transformerWenfeng Zhang (Hebei University Of Technology)

2EP1-5 - PBN: 57 Test of an HTS Transformer with High Current CapacityChan Park (Seoul National Univerisity)

2EP1-6 - PBN: 58 Study on Superconducting Fault Current Limiters based on 3 Phase TransformerDong Chul Chung (Woosuk University)

2EP1-7 - PBN: 59 Possibility of using the 2G HTS superconducting transformer to limit short-circuit currents in power networkTadeusz Janowski (Lublin University Of Technology)

2E P2 - DC Cables 13:30-15:30Chairs: Christian-Eric Bruzek, Masaru TomitaPlace: Level 1 entrance hall

2EP2-1 - PBN: 61 Application possibility of HTS cables connecting large o�shore wind farms to a national gridJae-Young Yoon (Keri(Korea Electrotechnology Research Institute))

2EP2-2 - PBN: 6 3 The E�ect of Superconducting Cables on Electric Power Grid with VSC DC Transmission SystemJung-Wook Park (Yonsei Univ.)

2EP2- 3 - PBN: 64 Development of a 10 kA Class HTS DC Power CableDong Zhang (IEE, CAS)

2EP2-4 - PBN: 65 Research of Quench Protection Method for High-temperature Superconducting CablesYanzhao Niu (North China Electric Power University)

2EP2-5 - PBN: 66 Electrical Characteristics of 2G HTS Tapes and Cables Under DC Current with AC RippleJae-Ho Kim (Center For Advanced Power Systems)

2EP2-6 - PBN: 67 Loss characteristics analysis of HTS DC model cable by harmonics current using semi-calorimetric methodSung-Kyu Kim (Changwon National University)


2EP2-7 - PBN: 68 Design and manufacture of model -sized VSC-HVDC system for analysis of HTS DC power cableMinh Chau Dinh (Changwon Nation University, South Korea)

2EP2-8 - PBN: 69 Manufacturing of superconducting DC transmission system using current sourced converter for analysis of HTS DC power cable characteristicsJin-Geun Kim (Changwon National University)

2EP2-9 - PBN: 70 Performance Test of prototype DC cable for RailwaysMasaru Tomita (Railway Technical Reserch Institute)

2EP2-10 - PBN: 62 Electrical Insulation Characteristics and Design of an HTS DC CableWoo Jin Kim (Department Of Electrical Engineering, Gyeongsang National University And Eri)

2E P3 - S MES and grid 13:30-15:30Chairs: Pascal Tixador, Prof. Minwon ParkPlace: Level 1 entrance hall

2EP 3-1 - PBN: 71 A Study on Optimal Sizing of Superconducting Magnetic Energy Storage in a Smart Distribution SystemJung-Wook Park (Yonsei Univ.)

2EP 3-3 - PBN: 72 Design and Analysis of A New DC Micro-grid System With SMES and BatteryChunhua Liu (The University Of Hong Kong)

2EP 3-4 - PBN: 7 3 Transient Stability Analysis of SMES for Smart Grid with Vehicle-to-Grid OperationDiyun Wu (The University Of Hong Kong)

2EP 3-5 - PBN: 74 Power Compensation and Power Quality Improvement Based on Multiple-Channel Current Source Converters Fed HT SMESZheng Wang (School Of Electrical Engineering, Southeast University)

2EP 3-6 - PBN: 75 Research of Energy Storage Unit’s Control Strategy of Hybrid Magnet Used for SMESXiaohua Huang (China Electric Power Research Institute)

2EP 3-7 - PBN: 76 Energy Function based SMES Controller for Transient Stability EnhancementJing Shi (R&D Center Of Applied Supercondutivity)

2E P4 - FCL inductive design 13:30-15:30Chairs: Mathias Noe, Hyo-Sang ChoiPlace: Level 1 entrance hall and Hall Callelongue

2EP4-2 - PBN: 77 Development of an Combined YBCO/Bi222 3 Coils for an Model Fault Current LimiterJingye Zhang (The Key Laboratory Of Applied Superconductivity, The Institute Of Electrical Engineering, Chinese Academy Of Sciences)

2EP4- 3 - PBN: 78 Dynamic Desaturation Process in Saturated Cores Fault Current LimiterYasha Nikulshin (Bar-Ilan University)

2EP4-4 - PBN: 79 Design and Tests of Coreless Inductive Superconducting Fault Current LimiterJanusz Kozak (Electrotechnical Institute In Warsaw)

2EP4-5 - PBN: 80 Prototype Fault Current Limiter using Transformer and Modular Device of YBCO Coated ConductorCarlos Baldan (Eel-Usp And Feg-Unesp)

2EP4-6 - PBN: 81 Optimization of an HTS Coil with a Reversely Magnetized Core for the Smart Fault Current ControllerMin Cheol Ahn (Kunsan National University)

2EP4-7 - PBN: 82 Current Limiting Characteristics of Three-phase Coaxial Transformer Type Superconducting Fault Current Limiter with Rewound StructureSayaka Oda (Kyoto University)

2EP4-8 - PBN: 8 3 Study on Fault Current Limiting Characteristics of a Flux-Lock Type SFCL with Mechanical Switch driven by Electromagnetic Repulsion ForceYongseck Lee (School Of Electrical Engineering)

2E P5 - Machine design I 13:30-15:30Chairs: Sasha Ishmael, Liyi LIPlace: Hall Callelongue

2EP5-1 - PBN: 85 Measurement and analysis of critical current and AC Loss of HTS tapes in a superconducting machineRuilin Pei (Baosteel Group)

2EP5-2 - PBN: 86 Theoretical study of an axial �ux superconducting motorEl Hadj Ailam (Laboratoire De L’Energie Et Des SystÃ¨mes Intelligents Lesi, Centre



Universitaire De Khemis Miliana)2EP5-3 - PBN: 87 Optimization Design of HTS Motor with Superconducting Armature Windings and Excitation

Wingdings Liyi Li (Harbin Institute Of Technology)2EP5-4 - PBN: 88 A new design method for superconducting motors Mohammed Nadjib Benallal (Laboratoire De L’Energie Et Des SystÃ¨mes Intelligents

Lesi, Centre Universitaire De Khemis Miliana)2EP5-5 - PBN: 89 A Coupled FE Phase-Domain model for Superconducting Synchronous Machine Loic Queval (The University Of Tokyo)2EP5-7 - PBN: 90 Combined coupled circuit-field-electromechanical analysis of a three-phase rotor-wounded

induction motor considering variation of winding resistance Weimin Wang (The Hong Kong Polytechnic University)2EP5-8 - PBN: 91 The Design and Test of the Field Coil for a HTS Synchronous Motor Ho Min Kim (Korea Electrotechnology Research Institute)

2EP6 - Machine design II 13:30-15:30Chairs: Masataka Iwakuma, Dong XiaPlace: Hall Callelongue

2EP6-1 - PBN: 92 Performance Simulation of a High Speed Wound-Rotor Synchronous Generator Huijuan Liu (Beijing Jiaotong University)2EP6-2 - PBN: 94 Trial test of fully HTS induction/synchronous machine for next generation electric vehicle Daisuke Sekiguchi (Kyoto University)2EP6-3 - PBN: 95 Application of HTS BSCCO Tapes in an Ironless Axial Flux Superconductor Motor Adrian Gonzalez-Parada (University Of Guanajuato)2EP6-4 - PBN: 96 A small scale linear synchronous motor with an excitation system composed of second generation

superconducting coated conductor racetrack electromagnets Fei Yen (Southwest Jiaotong University)2EP6-5 - PBN: 97 Feasibility study on a 400kW-3600rpm REBCO full superconducting motor Masataka Iwakuma (Kyushu University)2EP6-6 - PBN: 98 AC losses in superconducting wind generators Weijia Yuan (University Of Cambridge)2EP6-7 - PBN: 99 Design and testing of MgB2 coils for wind generators Santiago Sanz (Ciemat)2EP6-8 - PBN: 100 Numerical analysis of YBCO coil using the strain-critical current relationship for an electric

generator Wei Wang (University Of Cambridge)2EP6-9 - PBN: 101 Electrical Properties Analysis and Performance Test Result of a fully superconducting 10HP

Homopolar Motor Jikwang Lee (Woosuk University)2EP6-10 - PBN: 93 Numerical Analysis of Transient Electromagnetic Fields and Forces on the Stator End-Windings of

Large Turbo-generators Huijun Deng (Ningbo University)

2EP7 - Machine design III 13:30-15:30Chairs: Bruno Douine, YoonDo ChungPlace: Hall Callelongue and Auditorium foyer

2EP7-1 - PBN: 102 Design and Fundamental Operating Analysis of Advanced Linear Type Magnetic Flux Pump Yoondo Chung (The University Of Suwon)2EP7-3 - PBN: 103 Optimization design of electromagnetic vibration-powered generator based on 3D FEM Xiaoguang Yang (Province-Ministry Joint Key Laboratory Of Electromagnetic Field And

Electrical Apparatus Reliability, Hebei University Of Technology,Guangrong Road 8, Hongqiao, Tianjin 300130, China)

2EP7-4 - PBN: 104 Capacitive MHD generator Felix Elefant (University Of Cambridge)2EP7-6 - PBN: 105 Magnetoconvection Effect of Magnetic Nanofluids for Cooling of AC Power Systems Geun-Young Jeong (Kyungpook National University)2EP7-7 - PBN: 106 Characteristic Comparison according to the Change of End-turns Shape in Field coil for

Superconducting Machines Sang-Ho Lee ()

2FP1 - Industrial applications Bearings and rotors 13:30-15:30Chairs: Igor Rudnev, Qunxu Lin


Place: Auditorium foyer

2FP1-1 - PBN: 109 The method of measurement of static balancing for incomplete spherical superconducting rotor Fei Gao (IEE CAS)2FP1-2 - PBN: 110 Driving Force Analysis of a levitated Sphere-Shaped Superconducting Rotor Xinning Hu (IEE CAS)2FP1-3 - PBN: 111 Technique Of Balance Correction For Precise Hollow Superconducting Rotor By Chemical

Corrosion In The Inner Wall Of The Rotor Hui Wang (IEE CAS)2FP1-4 - PBN: 112 Research of radial high temperature superconducting magnetic bearings for cryogenic liquid

pumps Qunxu Lin (Applied Superconductivity Laboratory, Southwest Jiaotong University,)2FP1-5 - PBN: 113 A levitated rotating bearing made by an MgB2 cylinder Elena Perini (Edison)2FP1-6 - PBN: 114 Basic Study on Superconducting Magnetic Bearing (SMB) With Superconducting Coil Eijiro Maruo (Kyushu Institute Of Technology)

2GP1 - NbTi strands and cables 13:30-15:30Chairs: Manfred Thöner, Hem KanithiPlace: Auditorium foyer

2GP1-1 - PBN: 115 Manufacturing of ITER PF5 and CC conductor samples Jinggang Qin (Institute Of Plasma Physics)2GP1-2 - PBN: 117 First results of AC loss test on ITER TF conductors with transverse load cycling Yasuyuki Miyoshi (University Of Twente)2GP1-3 - PBN: 118 The Performance Optimization of NbTi Superconducting Composite Wire above 4.2 K for ITER

Project Jianfeng Li (Western Superconducting Technologies Co., Ltd.)2GP1-4 - PBN: 119 Study of NbTi superconducting strands for JT-60SA toroidal field coils Weitao Liu (Western Superconducting Technologies Co., Ltd. And National Engineering

Laboratory Of Superconducting Material Processing)2GP1-5 - PBN: 120 Influence of final drawing strain on the Jc of NbTi superconductor Haibo Ouyang (Western Superconducting Technologies, Co. Ltd)2GP1-6 - PBN: 121 Iseult/INUMAC 11.7 T MRI Magnet Conductor Production Status Christophe Berriaud (CEA)2GP1-7 - PBN: 122 A new European production line for CIC conductors Antonio Della Corte (ENEA)2GP1-8 - PBN: 123 The Jc (B,T) characterization of NbTi strands for ITER PF 1/6 coils Yuriy Karasev ([email protected])2GP1-9 - PBN: 124 Variable-temperature transport critical-current measurements of superconductors Loren Goodrich (NIST)2GP1-10 - PBN: 116 Improvement of Cr- and Ni-coating technology for ITER conductors’ production Yu. P. Ipatov (Russian Scientific Cable Institute)

2GP2 - Performance improvements in MgB2 13:30-15:30Chairs: Yasuyuki Miyoshi, Tomasz CetnerPlace: Auditorium foyer

2GP2-1 - PBN: 125 Electromechanical properties of filamentary MgB2 wires Pavol Kovac (Institute Of Electrical Engineering Of Sas)2GP2-2 - PBN: 126 Physical mechanisms behind the improvement of Jc in binary and alloyed MgB2 wires after

densification Carmine Senatore (University Of Geneva)2GP2-3 - PBN: 127 Improvement of critical properties of undoped, multifilamentary MgB2 wires in Nb/Cu after

annealing under high gas pressure Tomasz Cetner (Institute Of High Pressure Physic, Polish Academy Of Sciences)2GP2-4 - PBN: 128 Comparison of critical current density in small MgB2 coils and short wire samples Gajda Daniel (International Laboratory Of Hmf And Lt)2GP2-5 - PBN: 129 Superconducting properties comparison of SiC doped multifilamentary MgB2 wires of various

sheaths (Cu, Monel, Glidcop) after high pressure HIP treatment. Krzysztof Adamczyk (Institute Of High Pressure Physics, Polish Academy Of Sciences,

01-142 Warszawa, Poland)2GP2-6 - PBN: 130 Development of high performance MgB2 superconducting tapes Yanwei Ma (Institute Of Electrical Engineering, Chinese Academy Of Sciences, China)2GP2-7 - PBN: 131 PIT Processed MgB2 Thin Wires Sheathed with Stainless Steel



Yutaka Yamada (Tokai University)2GP2-8 - PBN: 132 Prediction of AC losses of MgB2 superconducting wires as a function of transport currents, fields

and temperatures Seyong Choi (Korea Basic Science Institute)2GP2-9 - PBN: 133 MgB2 doping by Rare-Earth metals and borides Luca Saglietti (Edison)

2GP3 - Electrical and thermal insulation 13:30-15:30Chairs: Jun Lu, Hun-sik ChangPlace: Auditorium foyer

2GP3-1 - PBN: 134 Characterization of bonded glass / Polyimide tapes for the ITER TF coil insulation Rainer Prokopec (Vienna University Of Technology, Atominstitut)2GP3-2 - PBN: 138 A study on electrical characteristics of insulation material for Superconducting Machines Haejong Kim (Korea Electrotechnology Research Institute)2GP3-3 - PBN: 139 Measurement of volume resistivity of irradiated polyimide samples Piotr Madej (Wroclaw University Of Technology)2GP3-4 - PBN: 140 Manufacture and test for high-strength low-temperature composite insulator Min Yu (Institute Of Plasma Physics,CAS)2GP3-5 - PBN: 141 Research on fatigue performance of axial insulation breaks Cheng Wu (Institute Of Plasma Physics,CAS)2GP3-6 - PBN: 142 The High Voltage Test under Paschen Condition of ITER Feeder Components Xiongyi Huang (Institute Of Plasma Phyiscs)2GP3-7 - PBN: 143 The research on Micro-phase Toughened Epoxy Resin in Cryogenic applications Wanjiang Pan (Institute Of Plasma Physics,CAS)2GP3-8 - PBN: 144 Mechanical and Dielectric Evaluation of Glass Fibre Reinforced Epoxy-Cyanate Composites for

Fusion Relevant Magnets Winding Packs Priyanka Brahmbhatt (Institute For Plasma Research)2GP3-9 - PBN: 145 Study of Irradiation Effect on Electrical Insulation Material for Super Conducting Magnet of

Nuclear Fusion Reactor Yuichi Tomi (Osaka University)2GP3-10 - PBN: 135 The thermal conductivity and thermal resistance measurement of the composite structure at low

temperatures Peng Zhang (Shanghai Jiao Tong University)2GP3-11 - PBN: 136 De-lamination characteristics of coated conductor for conduction cooled HTS coil Heecheol Park (Changwon National University)2GP3-12 - PBN: 137 Insulation Characteristics of Cryogens for an HTS apparatus Jae Hyeong Choi (Department Of Electrical Engineering, Gyeongsang National

University And Eri)

2HP1 - Quench detection and protection 13:30-15:30Chairs: Walter Fietz, Aldo Di ZenobioPlace: Auditorium foyer

2HP1-1 - PBN: 146 In-line control in T2K proton beam line Magnet Safety System Jean-Paul Charrier (CEA - Saclay)2HP1-2 - PBN: 149 Temperature Detection Circuit on the Low-Temperature Superconducting Coils Jie Shen (Institute Of Plasma Physics Chinese Academy Of Sciences)2HP1-3 - PBN: 150 Internal quench of superconducting magnets by the use of AC fields Leslie Bromberg (Mit)2HP1-4 - PBN: 151 Investigations about quench detection in the ITER TF system Marc Coatanea-Gouachet (CEA/Irfm)2HP1-5 - PBN: 152 Develop of a Novel Hybrid Protection System for Superconducting MRI Magnets Shunzhong Chen (IEE CAS)2HP1-6 - PBN: 153 Conception and Development of the Edipo Quench Detection System Giancarlo Croari (EPFL-CRPP)2HP1-7 - PBN: 154 Design of a quench protection system for an YBCO insert coil Davide Uglietti (EPFL-CRPP, 5232 Villigen Psi, Switzerland)2HP1-8 - PBN: 155 External AC magnetic field and direct AC current superposition as a quench initiation method in

YBCO layer-wound coils Matthieu Dalban-Canassy (National High Magnetic Field Laboratory - FSU)2HP1-9 - PBN: 156 Quench Detection and Protection in Cryocooler-cooled YBCO Pancake Coil for SMES Hiroshi Ueda (Osaka University)2HP1-10 - PBN: 147 Voltage Characteristics of Diodes used for the Quench Protection of Superconducting Magnets Michael Green (Lawrence Berkeley Laboratory)


2HP1-11 - PBN: 148 Quenching a Powered Magnet that is protected with Diodes and Resistors when a Lead Fails Michael Green (Lawrence Berkeley Laboratory)

2HP2 - Power supplies 13:30-15:30Chairs: Thomas Rummel, Inho SongPlace: Auditorium foyer and Level 0 hall

2HP2-1 - PBN: 157 A Novel Repetitive High Energy Pulsed Power Supply for the Repetive Pulsed High Magnetic Field

Yun Xu (Huazhong University Of Science& Technology)2HP2-2 - PBN: 158 Performance of the superconducting power supply for the CMD-3 thin superconducting solenoid Sergey Karpov (Budker Institute Of Nuclear Physics)2HP2-3 - PBN: 159 A 35kA Disc-shaped Thyristor DC Switch for Batteries Power Supply of flat-top Pulsed Magnetic

Field Tonghai Ding (Wuhan National High Magnetic Field Center, Huazhong University Of

Science & Technology)2HP2-4 - PBN: 160 Design of a 136 MW Power Supply for a 50 T Pulsed Magnet Hongfa Ding (Wuhan National High Magnetic Field Center)2HP2-5 - PBN: 161 Conceptual Design of Coupled HTS Coils for Inductive Power Transfer Based on Magnetic

Resonance Yoondo Chung (The University Of Suwon)2HP2-6 - PBN: 162 Simulation model for design of a new power supply Tomohiro Takayanagi (Japan Atomic Energy Agency)2HP2-7 - PBN: 163 Feasibility Study on Current Source Power Conversion for Superconducting Magnets Using Series

Compensated Thyristor Converters Shinichi Nomura (Meiji University)2HP2-8 - PBN: 164 Design and Analysis of a Combined Power Supply for the High-Field Quasi-Continuous

Magnets Hongfa Ding (Wuhan National High Magnetic Field Center)2HP2-9 - PBN: 165 Function Design and Implementation of Center Control System Applied to Pulsed High Magnetic

Field Facility Jiangtao Shi (Wuhan National High Magnetic Field Center,Huazhong University Of

Science)2HP2-10 - PBN: 166 Design of a Program-controlled Precise Synchronous Triggering System Applied to Pulsed High

Magnetic Field Facilit Jianfeng Xie (Huazhong University Of Science And Technology)2HP2-11 - PBN: 167 Low Loss and Compact Grid Connecting Converter Using MERS for Superconducting Magnet Takanori Isobe (Tokyo Institute Of Technology)2HP2-12 - PBN: 168 New power supply of the injection bump magnet for upgrading the injection energy in the J-PARC

3-GeV RCS Tomohiro Takayanagi (Japan Atomic Energy Agency)

2IP1 - Magnetic Field 13:30-15:30Chairs: Franck Borgnolutti, Etienne RochepaultPlace: Level 0 hall

2IP1-1 - PBN: 169 Comparison between electromagnetic model and magnetic measurements in the LHC magnets Per Hagen (CERN)2IP1-2 - PBN: 170 New algorithm for the 2D field optimization of accelerator dipole racetrack-shaped magnet. Etienne Rochepault (CEA Saclay)2IP1-3 - PBN: 171 Uniform field coil system optimization study Valery Lysenko (Lebedev Physical Institute Of The Russian Academy Of Sciences,

Moscow, Russia)2IP1-4 - PBN: 172 Validation of 3D model for ITER magnet components in EM analysis of field penetration Elena Gapionok (Efremov Institute Of Electrophysical Apparatus)2IP1-5 - PBN: 173 Test results of central magnetic field and field uniformity of an high temperature superconducting

magnet with gap Youngmin Kim (Soonchunhyang University)2IP1-6 - PBN: 174 The influence of the magnetic field errors in the CYCIAE-100 cyclotron Hongjuan Yao (China Institute Of Atomic Energy)2IP1-7 - PBN: 175 Analysis and optimization of the impact of ferromagnetic inserts on the toroidal field ripple in

ITER Evgeny Lamzin (Efremov Institute)2IP1-8 - PBN: 176 Modeling laminations with packing factors - A comparison with experiment William Beeckman (Sigmaphi)



2IP1-9 - PBN: 177 Magnetic Field Simulation of Serpentine Quadrupole Coil Yingshun Zhu (1 Graduate University Of Chinese Academy Of Sciences, Beijing,

China)

2IP2 - CICC and quench LTS 13:30-15:30Chairs: Jean-Luc Duchateau, Christophe BerriaudPlace: Level 0 hall

2IP2-1 - PBN: 178 Comparative Analysis of the ITER PFC1&6 conductor samples tests. Pierluigi Bruzzone (CRPP-EPFL)2IP2-2 - PBN: 180 Quench Analysis of MICE Spectrometer and Coupling Solenoids Vladimir Kashikhin (Fermilab)2IP2-3 - PBN: 181 Atability Analysis of the KSTAR PF busline Y. M. Park (National Fusion Research Institute)2IP2-4 - PBN: 182 CFD ANALYSIS OF CABLE-IN-CONDUIT CONDUCTORS (CICC) FOR FUSION GRADE

MAGNETS D Raja Sekhar (Research Scholar)2IP2-5 - PBN: 183 Integrated quench protection model for Nb3Sn high field accelerator magnets Tiina Salmi (Lawrence Berkeley National Laboratory, U.S.A.)2IP2-6 - PBN: 184 Experimental analysis on AC quench current criterion for AC power devices Jiho Lee (Yonsei University)2IP2-7 - PBN: 185 Finite Element Analysis on Thermo Mechanical Compatibility of Jacket Materials for Cable-In-

Conduit Conductors (CICC) D Raja Sekhar (Research Scholar)2IP2-8 - PBN: 186 Defect detection in superconducting CICC joints by means of magnetic field measurements Fabrizio Bellina (Udine University)2IP2-9 - PBN: 187 Method to evaluate CIC conductor performance by voltage taps Yoshihiko Nunoya (JAEA)2IP2-10 - PBN: 179 Multi stage visualisation of twisted superconducting strand in CICC G Vishnuvardhan (Iit Kharagpur)

2IP3 - ac loss HTS 13:30-15:30Chairs: Risto Mikkonen, Naoyuki AmemiyaPlace: Level 0 hall

2IP3-1 - PBN: 188 AC losses in round wires coated by a superconducting layer Fedor Gömöry (Institute Of Electrical Enginering)2IP3-2 - PBN: 189 Influence of AC transport current balance on AC loss in a two layered polygonal YBCO assembled

conductor Jun Ogawa (Niigata University)2IP3-4 - PBN: 190 AC loss calculation in high-Tc superconductor coil Seyong Choi (Korea Basic Science Institute)2IP3-6 - PBN: 191 Measurement and Numerical Analysis of AC Loss in High Temperature Superconducting Coil Satoshi Fukui (Niigata University)2IP3-7 - PBN: 192 Experimental investigation of loss characteristics with AC and DC offset transport current in HTS

double pan-cake coil Jun Ogawa (Niigata University)

2BO - ITER-SST1-W7-X construction status 16:00-18:00Chairs: Jean-Luc Duchateau, Kiyoshi Yoshida Place: Auditorium

2BO-1 - 16:00 The ITER Magnets: Design and Construction Status(Invited) Neil Mitchell (ITER Io)2BO-2 - 16:30 The Toroidal Field Coils for the ITER Project Frederic Savary (ITER Organization)2BO-3 - 16:45 Experiences from the assembly of the Magnet System for Wendelstein 7-X Lutz Wegener (Max-Planck-Institut Fuer Plasmaphysik)2BO-4 - 17:00 Addressing the Technical Challenges for the Construction of the ITER Central Solenoid Paul Libeyre (ITER Organization)2BO-5 - 17:15 Operation and test results from the SULTAN test facility Pierluigi Bruzzone (EPFL-CRPP)2BO-6 - 17:30 SST-1 Toroidal Field Magnet Tests: Some Results & Lessons Learnt Subrata Pradhan (Institute For Plasma Research)


2BO-7 - 17:45 Test results and investigation of Tcs degradation in the Japanese ITER CS conductor sample Tsutomu Hemmi (JAEA)

2DO - NMR and Medical & Biological Applications 16:00-18:00Chairs: Dr. Shinji Matsumoto, Juan BascunanPlace: Endoume

2DO-1 - 16:00 Magnetic field distribution generated by screening current flowing in coated conductor Akihisa Miyazoe (The University Of Tokyo)2DO-2 - 16:15 1.5T dedicated MRI scanner E. Demikhov (RTI, Cryomagnetic Systems, Moscow, Russia)2DO-3 - 16:30 An MgB2 test coil for the development of a compact 3 T MgB2 magnet for MRI applications Honghai Song (Ge)2DO-4 - 16:45 Environmental Vibration Induced Magnetic Field Disturbance in MRI Magnets Longzhi Jiang (Ge)2DO-5 - 17:00 Reduction of shielding-current-generated magnetic field by using twisted Bi-2223 multifilamentary

tape Naoyuki Amemiya (Kyoto University)2DO-6 - 17:15 Latest Progress on the Iseult/INUMAC Whole Body 11.7 T MRI Magnet Pierre Védrine (CEA Saclay)2DO-7 - 17:30 Whole-body 9.4 T/800mm Metabolism Imaging Superconducting Magnet system Qiuliang Wang (IEE CAS)2DO-8 - 17:45 Design of a No-Insulation HTS Insert for a 1.3 GHz LTS/HTS NMR Magnet Seungyong Hahn (Massachusetts Institute Of Technology)

2GO2 - High strength conductors and insulating materials 16:00-18:00Chairs: Sergei Zherlitsyn., Charles SwensonPlace: Callelongue

2GO2-1 - 16:00 Development of a new insulation approach for the LHC 13kA interconnections Friedrich Lackner (CERN)2GO2-2 - 16:15 Static Friction Tests on Materials for Electrical Insulation of Superconducting Coils Hannah Brice (Siemens Magnet Technology)2GO2-3 - 16:30 Cu/Nb nanocomposite wires processed by severe plastic deformation for applications in high

pulsed magnets: effects of the multi-scale microstructure on the mechanical properties Jean-Baptiste Dubois (University Of Poitiers)2GO2-4 - 16:45 Impacts of Heat Treatment on Properties and Microstructure of Cu16at%Ag Conductors Ke Han (National High Magnetic Field Lab)2GO2-5 - 17:00 Insulation of coated conductors for high field magnet applications Jun Lu (National High Magnetic Field Laboratory)2GO2-6 - 17:15 Control of Interstrand Contact Resistances of Nb3Sn Rutherford Cables with Cores of Woven-

Glass-Fiber Ribbons and Stainless-Steel Tapes Mike Sumption (Csmm,Mse, The Ohio State University)2GO2-7 - 17:30 Thermal Characterization of the Cable Insulation for the Nb-Ti HL-LHC Inner Triplet Model Pier Paolo Granieri (CERN, EPFL Lausanne)2GO2-8 - 17:45 Development of insulation technology with vacuum-pressure-impregnation (VPI) for ITER

correction coil Xiaowu Yu (Institute Of Plasma Physics, Chinese Academy Of Sciences)

Wednesday, 14 September 2011

PT4 - Progress and expectations in MRI: The magnetic brain 8:30-9:15Speaker: Denis Le Bihan (Neurospin, CEA Saclay)Chairs: Francois Kircher, Pierre VedrinePlace: Auditorium

3AP1 - Design of normal conducting accelerator magnets 9:15-11:45Chairs: Rodger Bossert, Andrzej SiemkoPlace: Exhibition hall

3AP1-1 - PBN: 1 Design and manufacture of a main beam quadrupole model for CLIC Alexey Vorozhtsov (CERN/Jinr)3AP1-2 - PBN: 2 Magnet Design for an Integrable Non-Linear Accelerator LatticePBN: Poster Board Number


Holger Witte (University Of Oxford / Jai)3AP1- 3 - PBN: 3 Magnet Design for a 70 MeV H-/ D- Dual Accelerating Particle Cyclotron

Tianjue Zhang (China Institute Of Atomic Energy)3AP1-4 - PBN: 4 Improving the Reliability of Particle Accelerator Magnets

Cherrill Spencer (Slac National Accelerator Laboratory)3AP1-5 - PBN: 5 Cost Optimization of Conventional Room Temperature Magnets as a Function of Magnet

Conductor Current Density*Michael Green (Michigan State University)

3AP1-6 - PBN: 6 Magnet Design and Fabrication of CYCIAE-14, a 14 MeV PET CyclotronTianjue Zhang (China Institute Of Atomic Energy)

3AP2 - Design of high �eld accelerator magnets 9:15-11:45Chairs: Herman ten Kate, Juan Carlos PerezPlace: Exhibition hall

3AP2-1 - PBN: 7 Conceptual Design of a Large-aperture Dipole Magnet with Nb 3Al CablesQingjin Xu (High Energy Accelerator Research Organization (KEK))

3AP2- 3 - PBN: 8 Design of the EuCARD high �eld model dipole magnet FRESCA2Attilio Milanese (CERN)

3AP2-4 - PBN: 9 The SMC (Short Model Coil) dipole: An R&D program for Nb 3Sn accelerator magnetsJuan Carlos Perez (CERN)

3AP2-5 - PBN: 10 Design of 11 T Twin-Aperture Nb 3Sn Dipole Model for LHC upgradesMikko Karppinen (CERN)

3AP2-6 - PBN: 11 Design of LD1, a large-aperture high-�eld Nb 3Sn Dipole MagnetPaolo Ferracin (LBNL)

3AP2-7 - PBN: 12 Magnetic �eld design of coil-dominated magnets wound with coated conductorsNaoyuki Amemiya (Kyoto University)

3AP2-8 - PBN: 1 3 Mechanical Behavior of HQ01, an Accelerator-Quality Quadrupole Magnet for the LHC Luminosity UpgradePaolo Ferracin (LBNL)

3AP3 - Design of superconducting accelerator magnets 9:15-11:45Chairs: Masayoshi Wake, Mike TartagliaPlace: Exhibition hall

3AP 3-1 - PBN: 14 Development of Corrector Magnet Designs for the SIS 300Leonid Tkachenko (Institute For High Energy Physics, Ihep)

3AP 3-2 - PBN: 15 Cryogen Free Splittable Quadrupole Magnet for Linear AcceleratorsVladimir Kashikhin (Fermilab)

3AP 3-3 - PBN: 16 Engineering Design of superconducting dipole coils for HIAF in LanzhouXiaoying Zhang (Institute Of Modern Physics)

3AP 3-4 - PBN: 17 Design of a high-�eld low leakage magnet for ADSYang Yang (Institute Of Modern Physics)

3AP 3-5 - PBN: 18 Active Shim Design of a 7T highly homogeneous Superconducting Magnet for Lanzhou Penning TrapJunjie Du (Institute Of Modern Physics)

3AP 3-6 - PBN: 19 Status of the development of superconducting magnets for the NICA projectHamlet Khodzhibagiyan (Joint Institute For Nuclear Research)

3AP 3-7 - PBN: 20 Magnetic design optimization and quench study of a highly saturated superferric quadrupole for FAIR Super-FRS multipletsFernando Toral (Ciemat)

3AP 3-8 - PBN: 21 Conceptual Design Study on Septum Magnets for FAIRKei Sugita (GSI)

3AP 3-9 - PBN: 22 Conceptual design of a 5 T, 6 m long and 6 m bore Solenoid for a future linear collider detectorHerman ten Kate (CERN)

3B P1 - Fusion magnet design 9:15-11:45Chairs: Joe Minervini, Subrata PradhanPlace: Exhibition hall

3BP1-1 - PBN: 2 3 Engineering problems of Tokamak T-15 electromagnet system reconstructionEduard Bondarchuk (Efremov Institute)

3BP1-2 - PBN: 24 The trim coils for the Wendelstein 7-X magnet systemThomas Rummel (Max-Planck-Institut Fuer Plasmaphysik)


3BP1- 3 - PBN: 25 Design of the in-vessel magnetic coils for generating a rotating resonant magnetic perturbation on the J-TEXT tokamak plasmaBo Rao (Huazhong University Of Science And Technology)

3BP1-4 - PBN: 26 Cryogen-free superconducting magnet for 170 GHz ECH CD systemYoshio Okui (Jastec)

3BP1-5 - PBN: 27 The JT-60SA toroidal �eld magnet - design for assemblySam Davis (Fusion For Energy)

3BP1-6 - PBN: 28 TF magnet superconducting design for FASTLuigi Reccia (ENEA)

3BP1-7 - PBN: 29 Design, and Analysis of the ITER Vertical Stability CoilsPeter Titus (Princeton Plasma Physics Laboratory)

3B P2 - Fusion magnet themohydraulics 9:15-11:45Chairs: Cesar Luongo, Sylvie NicolletPlace: Exhibition hall

3BP2-1 - PBN: 30 Quasi 3D Thermohydraulic modelling and temperature margins of ITER Correction coilsFlorent Gauthier (Soditech)

3BP2-2 - PBN: 31 Impact of JT-60SA TF magnet mass �ow on conductor margin and on cryogenic systemBenoit Lacroix (CEA)

3BP2- 3 - PBN: 32 Thermal-hydraulic analysis of the helium inlets options for the ITER Central SolenoidRoberto Zanino (Dipartimento Di Energetica, Politecnico Di Torino)

3BP2-4 - PBN: 33 Vincenta simulation study on the mitigation operation of ITER magnet cryo-cooling systemDong Keun Oh (National Fusion Resaerch Institute)

3BP2-5 - PBN: 34 Benchmark of the 4C code against ITER TF magnet cool-down from 300 K to 80 KRoberto Bonifetto (Dipartimento Di Energetica, Politecnico Di Torino)

3BP2-6 - PBN: 35 Thermohydraulic Behaviors of KSTAR PF Superconducting Magnet System in OperationSoo Hwan Park (National Fusion Research Institute)

3BP2-7 - PBN: 36 1D thermal-hydraulic analysis of the superconducting proposal for the CS magnets of FASTGian Mario Polli (ENEA)

3BP2-8 - PBN: 37 2D thermal analysis of the superconducting proposal for the TF magnets of FASTGian Mario Polli (ENEA)

3CP1 - HTS Magnets 9:15-11:45Chairs: Christian-Eric Bruzek, Huub Weijers Place: Exhibition hall

3CP1-1 - PBN: 38 Research and Development for Upgrading a Cryogen-Free 18T Superconducting MagnetKotaro Marukawa (Toshiba Corporation)

3CP1-2 - PBN: 39 A superconducting magnetization system with hybrid superconducting wire for the study and application of superconductivityS.D. Chen (Department Of Electrophysics, National Chiao Tung University)

3CP1- 3 - PBN: 40 Design, Construction and Testing of the 25T HTS Insert Coil Using REBCO TapesGuoqiang Wen (IEE CAS)

3CP1-4 - PBN: 41 2G HTS coils in external background �elds up to 18TJeremy Good (Cryogenic Ltd)

3CP1-5 - PBN: 42 Development of HTS Insert Magnet using Main and Auxiliary Coil for High Field ApplicationsMyunghwan Ku (Soonchunhyang Univ.)

3CP1-6 - PBN: 4 3 Stability and normal zone propagation in a 50 Tesla solenoid wound of YBCO coated conductor tape - FEM modelingMilan Majoros (The Ohio State University)

3CP1-7 - PBN: 44 Characteristic Comparison for the Various Winding Methods of HTS MagnetsHyun Chul Jo (Yonsei University)

3CP1-8 - PBN: 45 Characteristics of Critical Current of HTS Layer Winding Coils with Various Winding Tensions and Bending DiameterHyun Chul Jo (Yonsei University)

3CP1-9 - PBN: 46 A Study on 11T hybrid (LTS/HTS) magnet with no insulation and layer winding methodSukjin Choi (Yonsei University)

3DP1 - B iological and Novel applications 9:15-11:45Chairs: Akihisa Miyazoe, Xiaotao HanPlace: Exhibition hall

3DP1-1 - PBN: 47 A bionic arti�cial heart blood pump driven by permanent magnet located outside human body



Dong Xia (Institute Of Electrical Engineering, Chinese Academy Of Sciences)3DP1-2 - PBN: 48 Study on an algorithm in magnetic detection electrical impedance tomography with nodal

Jacobian Shuai Zhang (Province-Ministry Joint Key Laboratory Of Electromagnetic Field And

Electrical Apparatus Reliability, Hebei University Of Technology)3DP1-3 - PBN: 49 Optimal design of a focused hyperthermia system S.L. Ho (The Hong Kong Polytechnic University)3DP1-4 - PBN: 50 Design and Evaluation of Three-Dimensional Scanning Electromagnetic Guide Device for

Magnetic Drug Delivery Xiaotao Han (Wuhan National High Magnetic Field Center, Huazhong University Of

Science And Technology)3DP1-5 - PBN: 51 Analysis and Optimized Design of Magnetic Navigation System Using Helmholtz and Maxwell

coils Quanliang Cao (Wuhan National High Magnetic Field Center,Huazhong University Of

Science And Technology)3DP1-6 - PBN: 52 High-Temperature Superconducting Coil For Magnetically-Guided Feeding Tube Application John Voccio (American Superconductor Corporation)3DP1-7 - PBN: 53 Numerical Analysis for Magnetophoretic Separation of Blood Cells in Fluid and Magnetic Field Myung Ki Baek (Sungkyunkwan University)

3EP1 - Characterizations and systems 9:15-11:45Chairs: Jingye Zhang, Ciro Calzolaio Place: Exhibition hall and Level 1 entrance hall

3EP1-1 - PBN: 54 Minimum quench energy characteristic of YBCO coated conductor with different stabilizer thickness

Joon-Han Bae (Korea Electrotechnology Research Institute)3EP1-2 - PBN: 55 An optimization design of hybrid high temperature superconducting magnet Fengshun Jiao (R&D Center Of Applied Superconductivity College Of Electrical &

Electronic Engineering Huazhong University Of Science And Technology)3EP1-3 - PBN: 56 Performance test of cooling system for 500 m HTS cable in KEPCO power grid Yeon Suk Choi (Korea Basic Science Institute)3EP1-4 - PBN: 57 Inductive method for the determination of the critical current Ic of a HTS stator in axial flux

configuration Adrian Gonzalez-Parada (University Of Guanajuato)3EP1-5 - PBN: 58 Heat Transfer and Mechanical Analysis for AC Loss Measurement Cryostat Yiran Chen (University Of Cambridge)3EP1-6 - PBN: 59 Transient Analysis of The unbalanced faults in the Double-Circuit Distribution Line Hyoung-Min Park (Chosun University)3EP1-7 - PBN: 60 Novel Protection Scheme with the Superconducting Power Cables and Fault Current Limiters

through the RTDS Test in Icheon Substation Hansang Lee (Korea University)3EP1-8 - PBN: 61 Characterization of YBCO Coated Conductor Tapes by Pulsed Current Measurement Tests Carlos Shigue (Eel Usp)3EP1-9 - PBN: 62 Transport current loss characteristics of HTS tape with harmonic current Makoto Tsuda (Tohoku University)3EP1-10 - PBN: 63 AC loss of a balanced tri-axial HTS cable with lengthened twist pitches Ahmet Nuri Ozcivan (Tohoku University, Graduate School Of Engineering)

3EP2 - SMES and renewable energy 9:15-11:45Chairs: Arnaud Badel, Wenyong GuoPlace: Level 1 entrance hall

3EP2-1 - PBN: 64 Adaptive Control Strategy for Superconducting Magnetic Energy Storage in Distribution Power Systemwith Photovoltaic Farm

Jung-Wook Park (Yonsei Univ.)3EP2-2 - PBN: 65 Alleviation of Power Fluctuation in Interconnected Power Systems with Wind Farm by SMES with

Optimal Coil Size Mongkol Saejia (King Mongkut’S Institute Of Technology Ladkrabang)3EP2-3 - PBN: 66 Design Study of SMES System Cooled by Thermo-Siphon with Liquid Hydrogen for Effective Use

of Renewable Energy Takakazu Shintomi (Nihon University)3EP2-4 - PBN: 67 Application of SMES and Fuel Cell SystemCombined with Liquid Hydrogen Vehicle Station to

Renewable Energy Control Takataro Hamajima (Tohoku University)


3EP2-5 - PBN: 68 SMES Control System for Frequency Regulation in Power Grid Considering Integration of Renewable Generation and Electric VehiclesShuang Gao (The University Of Hong Kong)

3EP2-6 - PBN: 69 Transient Stability Improvement of Wind Farms with a Novel Current Source Converter Fed Wind Turbine-SMES Hybrid SystemZheng Wang (School Of Electrical Engineering, Southeast University)

3EP2-7 - PBN: 70 Wind Farm Transient Stability Enhancement with Intelligent-controlled SMESLi Wu (Schenectady County Community College)

3EP2-8 - PBN: 71 Wind power output smoothing based on fuzzy Kalman �lter for Wind/SMES/Battery hybrid power systemXiangjun Li (China Electric Power Research Institute)

3EP2-9 - PBN: 72 Compensation for the Power Fluctuation of the Large Scale Wind-Farm using Superconducting Flywheel Energy Storage SystemHansang Lee (Korea University)

3EP2-10 - PBN: 7 3 E�ective control of superconducting DC lines with SMES coils for improving the dispatchability and quality of large-scale wind powerTae Sik Nam (Yonsei University)

3E P3 - Resistive FCL 9:15-11:45Chairs: Jie ShengPlace: Level 1 entrance hall

3EP 3-1 - PBN: 74 An Electrical-thermal Coupled Finite Element Model of High Temperature Superconductor for Resistive Type Fault Current Limiter ApplicationsJie Sheng (Shanghai Jiaotong University)

3EP 3-2 - PBN: 77 Heat generation issues of resistive type fault current limiter under normal and fault conditionLi Ying (Shanghai Jiaotong University)

3EP 3-4 - PBN: 78 A Study on Lyapunov Stability Analysis of Multi-Machine Power System with a Resistive SFCLJung-Wook Park (Yonsei Univ.)

3EP 3-5 - PBN: 79 Research on shunt impedance of improved Matrix-Type SFCL in current-limiting partXin Wu (Institute Of Electrical Engineering,Chinese Academy Of Sciences)

3EP 3-6 - PBN: 80 Speci�cations of the 22.9kV SFCL considering protection systems in Korean power distribution systemSeung Ryul Lee (Keri(Korea Electrotechnology Research Institute))

3EP 3-7 - PBN: 81 Veri�cation of a Design Technique of an SFCL System with a Copper Bypass ReactorMin Cheol Ahn (Kunsan National University)

3EP 3-8 - PBN: 82 Design and Tests of Prototype Hybrid Superconducting Fault Current Limiter with Fast SwitchJin Bae Na (Yonsei University)

3EP 3-9 - PBN: 8 3 Installation and testing of a commercial level SFCLHye-Rim Kim (Kepco Research Institute)

3EP 3-10 - PBN: 75 Characterization of Fault Voltages of Matrix-type SFCL with 1 x 9 ModuleDong Chul Chung (Woosuk University)

3EP 3-11 - PBN: 76 Numerical Analysis and Electrical Insulation Design of a Single-phase 154 kV class Non-inductively wound Solenoid Type Superconducting Fault Current LimiterJin Bae Na (Yonsei University)

3FP1 - Industrial applications Magnetic separation 9:15-11:45Chairs: Minoru Takeda, Milan MajorosPlace: Level 1 entrance hall and Hall Callelongue

3FP1-1 - PBN: 85 Development of 7 T Superconducting Magnetic Separation SystemWenbin Ma (Institute Of High Energy Physics)

3FP1- 3 - PBN: 86 Development of a Superconducting Electromagnet Iron SeparatorZhilong Hou (Institute Of High Energy Physics (Ihep) Chinese Academy Of Sicences)

3FP1-4 - PBN: 87 Physical design of High Gradient Superconducting Magnetic Separation SystemFeipeng Ning (Institute Of High Energy Physics, Graduate University Of Chinese Academy Of Sciences)

3FP1-5 - PBN: 88 Development of a superconducting high gradient magnetic separator for the highly viscous �uidFumihito Mishima (Osaka University)

3FP1-6 - PBN: 89 A Superconducting HGMS for puri�cation of Wastewater in steelmaking converterMeifen Wang (Institute Of High Energy Physics, Chinese Academy Of Sciences)

3FP1-7 - PBN: 90 Fundamental Study on Removal of Arsenic Using Magnetic SeparationNaoki Nomura (Osaka University)

3GP1 - S tructural and high strength materials 9:15-11:45PBN: Poster Board Number


Chairs: Florence Lecouturier, Kazuya HamadaPlace: Hall Callelongue

3GP1-1 - PBN: 91 Thermal stability of Cu-Nb micro-composites prepared by bundling and drawing process Ming Liang (Northwest Institute For Non-Ferrous Material Research)3GP1-2 - PBN: 92 Elastic-plastic Transition in Nanostructured Materials: Definition and Effect of Internal Stress on

Microplastic Regime of nanocomposite wires for applications in high pulsed magnets Ludovic Thilly (University Of Poitiers)3GP1-3 - PBN: 93 Magnetic Properties of Shielding Materials for Superconducting Cavities Mika Masuzawa (KEK)3GP1-4 - PBN: 94 Selection Tests of MnZn and NiZn ferrites for Mu2e 300 kHz and 5.1 MHz AC dipoles Gueorgui Velev (Fermi National Accelerator Laboratory)3GP1-5 - PBN: 95 The effect of plastic deformation on low temperature mechanical and magnetic properties of

austenite 316LN tube for ITER TF conductor Soo-Hyeon Park (National Fusion Research Institute)3GP1-6 - PBN: 96 Trivalent chrome plating for ITER strands Hem Kanithi (Luvata Waterbury, Inc.)3GP1-7 - PBN: 97 Impact of cold work on ductility of ITER TF jacket material Klaus-Peter Weiss (Institute For Technical Physic - Kit)3GP1-8 - PBN: 98 The Mechanism of cube texture formation in Ni-7at.%Wsubstrate Gao Mangmang (Beijing University Of Technology)3GP1-9 - PBN: 99 Heat treatment effect on the magnetic properties of Cu-Nb micro-composites Yafeng Lu (Northest Institute For Non-Ferrous Material Research)

3GP2 - Coated conductors I: Mechanical behavior and applications 9:15-11:45Chairs: Marco Breschi, Hidetoshi OguroPlace: Hall Callelongue

3GP2-1 - PBN: 100 Relation between dependence of AC transport current losses in YBCO coated conductors on repeated mechanical stresses and cracks in the superconductor layers cracks by stresses

Ryuta Honzawa (Sophia University)3GP2-2 - PBN: 101 Performance of REBa2Cu3O7- coated conductor high-field magnet cables in magnetic fields up

to 20 T Johann Emhofer (Vienna University Of Technology / Atominstitut)3GP2-3 - PBN: 102 Characteristic Strain Response on Ic in REBCO Coated Conductor Tapes Under Magnetic Field

at 77K Hyung-Seop Shin (Andong National University)3GP2-4 - PBN: 103 Evaluation of Superconducting Properties of GdBCO Coated Conductors Jointed by Fusion

Splicing Technique Young-Gyun Kim (Korea University)3GP2-5 - PBN: 104 Compact GdBa2Cu3O7-delta coated conductor cables for high-field magnet applications Danko van der Laan (University Of Colorado & NIST)3GP2-6 - PBN: 105 Fabrication and mechanical property of fine round wire using coated conductors Hongsoo Ha (Korea Electrotechnology Research Institute)3GP2-7 - PBN: 106 Strain dependence of Superconducting properties for GdBCO Coated Conductor in High Field

under Tensile Load H. Oguro (Tohoku University)

3GP3 - Characterization of Bi-based superconductors 9:15-11:45Chairs: Andrea Malagoli, Jeff ParrellPlace: Hall Callelongue and Auditorium foyer

3GP3-1 - PBN: 109 Hoop stress measurements on BSCCO tape reinforced with carbon fiber Davide Uglietti (National Institute For Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki

305-0047, Japan)3GP3-2 - PBN: 110 Influence of repeated tensile stresses in c-axis direction on AC losses in multi-filamentary Bi2223/

Ag-sheathed wires Takeshi Noda (Sophia University)3GP3-3 - PBN: 111 The critical current degradation behavior of Bi-2223 superconducting tapes due to different fatigue

cycle bending Lantao Huang (Wuhan National High Magnetic Field CenterÃ¯Â¼ÂŒhuazhong University

Of Science And Technology)3GP3-4 - PBN: 112 AC transport losses of Bi2Sr2Ca2Cu3O10 tape in DC applied Fields and field angles Guomin Zhang (Institute Of Electrical Engineering,CAS)3GP3-5 - PBN: 113 Fabrication of a high-strength Ag/Al2O3 alloy sheathing for Bi2Sr2CaCu2O8+X multifilamentary

round wire


Amir Kajbafvala (Department Of Materials Science And Engineering, North Carolina State University, Engineering Building I, 911 Partners Way, Raleigh, Nc 27695-7907, Usa)

3GP3-6 - PBN: 114 Microstructure-based modeling of the electrical and mechanical behaviors of Bi2Sr2CaCu2Ox/AgMg round wires using statistical approaches

Xiaofan Gou (Materials Science Department, Ncsu)3GP3-7 - PBN: 115 Enhancement of the E(J, B) power law characterization for superconducting wires from electrical

measurements on a coil Julien Leclerc (Group Of Research In Electrical Engineering And Electronics Of

Nancy)

3HP1 - Current leads + feeders (ITER) 9:15-11:45Chairs: Reinhard Heller, Claudio MarinucciPlace: Auditorium foyer

3HP1-1 - PBN: 116 R&D on HTS Module of Current Lead for ITER Chenglian Liu (Asipp)3HP1-2 - PBN: 118 Manufacture and test of the prototype of Vacuum Barrier for the ITER Magnet Feeder system Kun Lu (Asipp)3HP1-3 - PBN: 119 Status of R&D for ITER Feeder System Procurement in China Yuntao Song (Institute Of Plasma Physics, CAS)3HP1-4 - PBN: 120 Development of fin-type heat exchanger for ITER 10 kA HTS current lead Kaizhong Ding (Institute Of Plasma Physics, CAS)3HP1-5 - PBN: 121 Key components of the ITER magnet feeders Pierre Bauer (ITER)3HP1-6 - PBN: 122 Manufacturing Procedure and Technnology R&D for The ITER Prototype Current Leads Tingzhi Zhou (Institute Of Plasma Physics Chinese Academy Of Sciences (Asipp),

Hefei, China)3HP1-7 - PBN: 123 Cryogenic Engineering Design of the ITER Superconducting Magnet Feeders Ananta Sahu (Institute For Plasma Research)3HP1-8 - PBN: 124 Design Approach and Analysis Results for Structure Feeders of ITER Magnets Ananta Sahu (Institute For Plasma Research)3HP1-9 - PBN: 125 Progress in Design, Analysis, and Manufacturing Studies of the ITER Feeders Chen-Yu Gung (ITER Organization)3HP1-10 - PBN: 117 The ITER Current Leads Tom Taylor (CERN)

3HP2 - Current leads + feeders 9:15-11:45Chairs: Pierre Bauer, Gianmario PolliPlace: Auditorium foyer

3HP2-1 - PBN: 126 Material Choice for Current Leads Victor Keilin (Kurchatov Institute)3HP2-2 - PBN: 127 Optimization of Current Leads for HTS Elements Immersed in Liquid Nitrogen Ho-Myung Chang Chang (Hong Ik University)3HP2-3 - PBN: 128 Development of HTS Current Leads for Industrial Fabrication Rainer Wesche (EPFL-CRPP)3HP2-4 - PBN: 129 Analysis and performance assessment for a 68 kA HTS current lead heat exchanger Enrico Rizzo (Karlsruhe Institute Of Technology)3HP2-6 - PBN: 130 Design, Fabrication and Testing of the High Temperature Superconductor Current Leads for a

Cooling System Using a Solid Cryogen Oh Jun Kwon (Korea University)3HP2-7 - PBN: 131 Nitrogen cooled 20 kA HTS leads for the NHMFL Series Connected Hybrid Hubertus Weijers (NHMFL / FSU)3HP2-8 - PBN: 132 Experimental study of the New Type HTS Current Leads to be Applied to the Nuclear Fusion

Devices Jae Young Jang (Yonsei University)3HP2-9 - PBN: 133 The Cooling and Safety Design of a Pair of Binary Leads for the MICE Superconducting Coupling

Magnets Li Wang (Shanghai Institute Of Applied Physics, CAS, China)

3IP1 - ac loss and eddy current LTS 9:15-11:45Chairs: Alfredo Portone, Alex TorrePlace: Auditorium foyer



3IP1-1 - PBN: 134 Currents induced in the lap-type joints of cable-in-conduit superconductors exposed to the time-varying magnetic field

Mikhail Astrov (Efremov Institute)3IP1-2 - PBN: 135 Mathematical Modeling for Current Distribution in Superconducting Magnet with the Regularization

Method Q. Wang (IEE CAS)3IP1-4 - PBN: 136 AC Loss Analysis of Superconducting Electromagnetic Iron Separator Wenbin Ma (Institute Of High Energy Physics)3IP1-5 - PBN: 137 Validation of homogenized filament bundle model in AC-loss computations Mika Lyly (Tampere University Of Technology)3IP1-6 - PBN: 138 Study on Eddy-Current Loss inside Copper Shielding of Transformers under DC biasing

Condition Zhigang Zhao (Hebei University Of Technology)3IP1-7 - PBN: 139 Measurement and Calculation of Iron Loss and Flux inside Silicon Steel Lamination under DC

Biasing Zhigang Zhao (Hebei University Of Technology)

3IP2 - Mechanics 1 9:15-11:45Chairs: Luigi Reccia, Chiangbo ChenPlace: Auditorium foyer

3IP2-1 - PBN: 140 Multiscale Homogenization Method to Calculate the Mechanical Properties of Superconducting Solenoids

Lankai Li (IEE CAS)3IP2-2 - PBN: 142 Stress Analysis of HTS Field Magnet for 10 MW Class Superconducting Wind Power Generator Jhong-Soo Lim (Research Institute Of Industrial Science)3IP2-3 - PBN: 143 Numerical analysis of structural parameters effects on false residual currents in residual current

device by FEM Guanying Zhang (Province-Ministry Joint Key Laboratory Of Electromagnetic Field And

Electrical Apparatus Reliability, Hebei University Of Technology, Guangrong Road 8, Hongqiao, Tianjin 300130, China)

3IP2-4 - PBN: 144 Fatigue Analysis of Pulsed Magnet with Finite Element Method Yunxing Song (Wuhan National High Magnetic Field Center)3IP2-5 - PBN: 145 Analysis of Stress Distribution in Helical Coils with Geodesic Windings based on Virial Theorem Hiroaki Tsutsui (Tokyo Institute Of Technology)3IP2-6 - PBN: 146 Mechanical Design of e-Lens Solenoid and Corrector System For RHIC Head-on Beam-Beam

Compensation Michael Anerella (Brookhaven National Laboratory)3IP2-7 - PBN: 147 Stress analysis of a 7T actively shielded superconducting magnet for animal MRI Jiangbo Chen (Tsinghua University)3IP2-8 - PBN: 148 Interaction Body Force Density and Mechanical Deformation in Soft Magnetic Materials with

External Field by Freezing Procedure of Magnetization Hong-Joon Kim (Kyungpook National University)3IP2-9 - PBN: 149 Pre-stress Analysis of the 4.5 T Conduction Cooled Magnet Based on Detail FEM Hongjie Zhang (Beijing Insititute Of Petrochemical Technology)3IP2-10 - PBN: 141 Mechanical Stability Analysis of 9.4 T MRI Superconducting Magnet Hongjie Zhang (Beijing Insititute Of Petrochemical Technology)

3IP3 - Mechanics 2 9:15-11:45Chairs: Bernard Gastineau, Hugo BajasPlace: Auditorium foyer

3IP3-1 - PBN: 150 Heat transfer and structural analysis of KIRAMS K1720 superconducting cyclotorn Bong Hwan Hong (Kirams)3IP3-2 - PBN: 152 Development of fabrication technologies for ITER Magnet Supports Pengyuan Li (SWIP)3IP3-3 - PBN: 153 Structural analysis of the ITER magnet feeders Yuri Ilin (ITER)3IP3-4 - PBN: 154 Analyses of serration effect at 4K in structural components of Wendelstein 7-X Joris Fellinger (Max Planck Institut Fuer Plasma Physik)3IP3-5 - PBN: 155 The Concept and Application of Reinforcement Ratio Zhongyu Zhou (Wuhan National High Magnetic Field Center)3IP3-6 - PBN: 156 Final Development of the Helium Inlet for the ITER Toroidal Field Coils Christelle Boyer (ITER Organization)3IP3-7 - PBN: 157 A global structural and electromagnetic FE model for the prediction of the mechanical behaviour


of the JT-60SA superconducting magnet system Valerio Tomarchio (Fusion For Energy (F4E))3IP3-8 - PBN: 158 Multiscale mechanical modeling of low temperature superconducting cables Pierre Manil (CEA Saclay)3IP3-9 - PBN: 159 Experimental and Numerical Evaluation of Mechanical Deformation and Distributive Magnetic

Loads with Different Mechanical Constraints in Two Parallel Conducting Bars In-Ho Kim (Kyungpook National University)3IP3-10 - PBN: 151 Plastic modeling of superconducting Rutherford-type cable fabrication Giuseppe Gallo (Fermilab)

3JP1 - Bulk materials and magnets 9:15-11:45Chairs: Takeshi Kato, Frank HornungPlace: Auditorium foyer and Level 0 hall

3JP1-1 - PBN: 160 A temperature stable permanent magnet for a watt balance Davide Tommasini (CERN)3JP1-2 - PBN: 161 A proposal of new fabricating technique of large MgB2 bulk by a capsule method Tomoyuki Naito (Iwate University)3JP1-3 - PBN: 162 Numerical Simulation of Conventional/Enhanced Permanent Magnet Method: Influence of Crack

on Accuracy Teruou Takayama (Yamagata University)3JP1-4 - PBN: 163 The relationship of torque and different lateral displacements for multi-seeds YBaCuO bulk above

a permanent magnet guideway undergoning ?Z? movements Rong Zeng (Applied Superconductivity Laboratory, Southwest Jiaotong University

(Asclab) , Chengdu 610031, Sichuan, China)3JP1-5 - PBN: 164 Thin wall bulk high temperature superconductor as a permanent cryomagnet Xavier Chaud (CNRS/LNCMI/Creta)3JP1-6 - PBN: 165 Optimisation of magnetic flux pump effect in a superconductor system with soft ferrites Chia-Hao Hsu (University Of Cambridge)3JP1-7 - PBN: 166 Mechanical Characteristics of A Flux Pinned Magnet-Superconductor Pair for Self-Assembly of

Spacecraft modules Wenjiang Yang (Beihang University)3JP1-8 - PBN: 167 A study on the no insulation winding method of the HTS magnet compared with insulation winding

method Sukjin Choi (Yonsei University)3JP1-9 - PBN: 168 3 Tesla MgB2 Bulk Superconducting Magnet Akiyasu Yamamoto (University Of Tokyo)3JP1-10 - PBN: 169 Study on Magnetic Drug Delivery System Using HTS Bulk Magnet Kota Nakagawa (Osaka University)

3JP2 - MHD, RF and other applications 9:15-11:45Chairs: Vladimir Kashikin, Hidehiko OkadaPlace: Level 0 hall

3JP2-1 - PBN: 170 Influence of the Magnetic Field Topology on Hall Thruster Discharge Channel Wall Erosion Chang Liu (Beijing University Of Aeronautics And Astronautics)3JP2-2 - PBN: 171 Computational study of effects of length-diameter ratio of chamber and magnet separation on

primary electron confinement in ion thruster Junxue Ren (Beijing University Of Aeronautics And Astronautics)3JP2-3 - PBN: 172 A Simulation Study of Solution Flow under Magnetic Force Field Hidehiko Okada (National Institute For Materials Science)3JP2-4 - PBN: 173 Feasibility research on improving the pulsed current output of superconducting inductor by using

HTS air-core transformer Song Meng (Meng Song)3JP2-5 - PBN: 174 Effect of design parameters of printed-circuit-board coils to the resonant frequency in wireless

power transfer system W. Y. Chau (The Hong Kong Polytechnic University)3JP2-6 - PBN: 175 Research for plasma behavior in the magnetic mirror field of VASIMR Bo Li (Beihang University)3JP2-7 - PBN: 176 Numerical study of the influence of the magnetic field on the lifetime of the discharge cathode of

ion engines Kan Xie (Beijing University Of Aeronautics And Astronautics)3JP2-8 - PBN: 177 Analysis of the Alignment Effect between Transmitter and Receiver Coils of Printed-circuit-broad

Resonant Wireless Transfer System W. Y. Chau (The Hong Kong Polytechnic University)



3KP1 - Magnetic measurements I 9:15-11:45Chairs: George Velev, Marco BuzioPlace: Level 0 hall

3KP1-1 - PBN: 178 Novel set-up for magnets test Yury Klimchenko (The D.V. Efremov Institute Of Electrophysical Apparatus (Niiefa))3KP1-2 - PBN: 179 Instrumentation for Magnetic Measurements in Superconducting Magnets Vladimir Alferov (Institute For High Energy Physics)3KP1-3 - PBN: 180 Test Results of the Magnetic Field Measurements for NSLS-II Sextupole Li Li (Institute Of High Energy Physics, CAS)3KP1-4 - PBN: 181 Development of a Test Bench for the Magnetic Measurements on the Phase Shifters for the

European XFEL Santiago Sanz (Ciemat)3KP1-5 - PBN: 182 Experimental validation of multipole magnetic measurements by vibrating wire systems Carlo Petrone (CERN)3KP1-6 - PBN: 183 Magnetic Field Measurements of RCS Dipole for CSNS Wan Chen (Ihep)3KP1-7 - PBN: 184 Magnetic measurements of Nb3Sn dipole and quadrupole magnets Xiaorong Wang (Lawrence Berkeley National Laboratory)3KP1-8 - PBN: 185 Measurements of magnetic field harmonics in superconducting coil wound by surface winding

technology Naoyuki Amemiya (Kyoto University)

3KP2 - Mechanical, electrical and cryogenic measurements I 9:15-11:45Chairs: Emanuela Barzi, Ezra Van LanenPlace: Level 0 hall

3KP2-1 - PBN: 186 Measurement of the Deformation in Pulsed Magnets by Means of Optical Fiber Sensors Tao Peng (Huazhong University Of Science And Technology, Wuhan, China)3KP2-2 - PBN: 189 Data Acquisition of a Tensile Test Stand for Cryogenic Environment Mathias Heiduk (Karlsruhe Institute Of Technology - Institute For Technical Physics)3KP2-3 - PBN: 190 Basics of Quality Assurance Strategy for Electrical Integrity of Superconducting Magnets Andrzej Stafiniak (GSI)3KP2-4 - PBN: 191 An Experimental Study on the Superconducting Coil Behaviors Using Electromagnetic Pulse

Signals during Ramping Ryuya Ando (Hitachi, Ltd.)3KP2-5 - PBN: 192 R&D of qualification tests of the key components for ITER magnet supports at SWIP Binglin Hou (Southwestern Institute Of Physics)3KP2-6 - PBN: 193 R3B-Glad magnet R and D tests program: Thermosiphon loop with horizontal section,

superconducting cable joints, and reduced scale ?coil in its casing? mock-up Bernard Gastineau (CEA Saclay, Irfu)3KP2-8 - PBN: 194 Precise Measurement of the Inductance and Resistance of a Pulsed Field Magnet Based on

Digital Lock-in Technique Xiaotao Han (Wuhan National High Magnetic Field Center,Huazhong University Of

Science And Technology)3KP2-9 - PBN: 195 Influence of mechanical vibration and losses under AC operating in Bi-2223 tapes with ionic

liquid Kazuya Nakamura (Sophia University)3KP2-10 - PBN: 187 An Investigation of Eddy Current Loss in Superconducting Cable-in-Conduit Conductors (CICC). Victor Keilin (Kurchatov Institute)3KP2-11 - PBN: 188 A novel quench protection technique for HTS coils Tsuyoshi Wakuda (Hitachi)

Thursday, 15 September 2011

PT5 - High Field Superconductors beyond Nb3Sn 8:00-8:45Speaker: David Larbalestier (NHMFL-FSU)Chairs: Pascal Tixador, Vitaly Vysotsky Place: Auditorium

PT6 - High magnetic field for material science 8:45-9:30Speaker: Kazuhisa Kakurai (Japan Atomic Energy Agency)Chairs: Liye Xiao, Akira Yamamoto


Place: Auditorium

4AO - FAIR, PSI, HFM 10:00-12:00Chairs: Mikko Karppinen, Giorgio Ambrosio Place: Auditorium

4AO-1 - 10:00 High field limits in superconducting magnets for particle accelerators(Invited) Todesco Ezio (CERN)4AO-2 - 10:30 The EuCARD High Field Magnet project Gijs de Rijk (CERN)4AO-3 - 10:45 Magnet Design and Measurement Results of the Solenoids and Bunch Compressor Bending

Magnets of the SwissFEL Injector Test Facility Marco Negrazus (Paul Scherrer Institute)4AO-6 - 11:00 R&D efforts towards high field accelerator magnets at KEK Tatsushi Nakamoto (KEK)4AO-7 - 11:15 Design of a spin-rotator device for the High Magnetic Field Project at PSI Vjeran Vrankovic (Paul Scherrer Institute)

4FO - New Developments and applications 10:00-12:00Chairs: Andreis den Ouden, Yuki Iwasa Place: Callelongue

4FO-1 - 10:00 Where in the world are we going? Magnetically speaking. Chris Redmon (Ut-Battelle Llc, Oak Ridge National Lab)4FO-2 - 10:15 Electrode Partitioning MHD Method for Separating Oil from Contaminated Seawater Using High-

Field Superconducting Magnet Minoru Takeda (Kobe University)4FO-3 - 10:30 Design and Assembly of a Nb3Sn Superconducting Vector Magnet Soren Prestemon (Lawrence Berkeley National Laboratory)4FO-4 - 10:45 DI-BSCCO magnets for industrial applications Takeshi Kato (Sumitomo Electric Industries, Ltd.)4FO-5 - 11:00 Magnetic Amplifier Using MgB2 Bulk Superconductors Tsukasa Kiyoshi (National Institute For Materials Science)4FO-6 - 11:15 BNL Direct Wind Superconducting Magnets? Brett Parker (BNL)4FO-7 - 11:30 Operational Performance of NHMFL 85 Tesla Pulsed Magnet System and Evaluation of the 95

Tesla System Upgrade Charles Swenson (Los Alamos National Laboratory)

4GO1 - Nb3Sn strand and conductor performance 10:00-12:00Chairs: Peter Lee, Carmine SenatorePlace: Endoume

4GO1-1 - 10:00 Status of ITER Conductor Production(Invited) Arnaud Devred (ITER Organization, 13115 St. Paul Lez Durance, France)4GO1-2 - 10:30 Transverse and axial loading tests on ITER Nb3Sn TF and CS strands and correlation with full-

size ITER CICC performance Arend Nijhuis (University Of Twente)4GO1-3 - 10:45 Development of Nb_3Sn and BSCCO-2212 conductors for high field applications Jeff Parrell (Oxford Superconducting Technology)4GO1-4 - 11:00 Progress on Internal-Tin Route Nb3Sn Superconducting Strand in WST Jianwei Liu (Western Superconducting Technologies)4GO1-5 - 11:15 Development of the new type Internal Tin Nb3Sn superconducting wires Ohata Katsumi (Hitachi Cable Ltd.)4GO1-6 - 11:30 Influence of wire parameters on critical current vs. strain characteristics of bronze processed

Nb3Sn superconducting wires Takayuki Miyatake (Japan Superconductor Technology, Inc.)4GO1-7 - 11:45 Analyses of Conductor Performance Qualification Samples for the ITER TF Coils Arnaud Devred (ITER Organization, 13115 St. Paul Lez Durance, France)

4AP1 - Magnets for muons 13:00-14:45Chairs: Akira Yamamoto, Ezio TodescoPlace: Exhibition hall



4AP1-1 - PBN: 1 Design and Test Results of Helical Solenoid Short Model Based on YBCO Tape Miao Yu (Fermilab)4AP1-2 - PBN: 2 Development of Superconducting Solenoid for the Hyperfine Structure Measurement of Muonium

at J-PARC Ken-Ichi Sasaki (High Energy Accelerator Research Organization)4AP1-3 - PBN: 3 Model NbTi Helical Solenoid Fabrication and Test Results Michael Tartaglia (Fermilab)4AP1-4 - PBN: 4 Construction and Test Results of 100 mm, 10 T HTS Solenoid for Muon Collider Ramesh Gupta (Brookhaven National Laboratory)4AP1-5 - PBN: 5 Updated Design of MICE Coupling Magnets Li Wang (Shanghai Institute Of Applied Physics, CAS, China)4AP1-6 - PBN: 6 Design of the Mu2e Transport Solenoid and challenges posed by the coupling with the larger

adjacent solenoids Giorgio Ambrosio (Fermilab)

4AP2 - Radiation resistant magnets 13:00-14:45Chairs: Tatsushi Nakamoto, Paul BrindzaPlace: Exhibition hall

4AP2-1 - PBN: 7 Radiation-Resistant Magnets for Neutrino Beam Line at J-PARC Erina Hirose (KEK)4AP2-2 - PBN: 8 Indirectly Cooled Radiation-Resistant Magnet with Slanting Saddle Shape Coils for New

Secondary Beam Extraction at J-PARC Hadron Facility Hitoshi Takahashi (KEK)4AP2-3 - PBN: 9 Radiation resistant prototype dipole for the first stage of Super-FRS Carsten Muehle (GSI Helmholtzzentrum Fuer Schwerionenforschung)4AP2-4 - PBN: 10 Optimization and Testing of a 120-mm LARP Nb3Sn Quadrupole Coil using Magnetic Mirror

Structure Rodger Bossert (Fermi National Accelerator Laboratory)4AP2-5 - PBN: 11 Mechanical Design, Assembly and Testing of an Alternate Structure for LARP Nb3Sn Quadrupole

Magnets for LHC Michael Anerella (Brookhaven National Laboratory)4AP2-7 - PBN: 12 The Two-dimensional Design of a Mixed Multipole Magnet for FRIB at Michigan State University Michael Green (Michigan State University)4AP2-8 - PBN: 13 Steady State Heat Deposits Modeling in the Nb3Sn Quadrupole Magnets for the Upgrade of the

LHC Inner Triplet Dariusz Bocian (FNAL)4AP2-9 - PBN: 14 Progress in the Long Nb3Sn Quadrupole R&D by LARP Giorgio Ambrosio (Fermilab)

4BP1 - Fusion magnet fabrication I 13:00-14:45Chairs: Alessandro Bonito-Olivia, Byung Su LimPlace: Exhibition hall

4BP1-1 - PBN: 15 Manufacture of the Winding Pack and Development of Key Parts for the JT-60SA Poloidal Field Coils

Katsuhiko Tsuchiya (Japan Atomic Energy Agency)4BP1-2 - PBN: 16 Special Purpose Winding Machine for Fusion relevant magnets in India Madhu Patel (Patel’S Analog & Digital Mst. Co. Pvt. Ltd.)4BP1-3 - PBN: 17 JT-60SA TF magnet joints developments and prequalification Patrick Decool (CEA)4BP1-4 - PBN: 18 Research on Manufacture and Enclosure Welding of ITER Correction Coils Cases Zibo Zhou (Institute Of Plasma Physics,CAS)4BP1-5 - PBN: 19 Status of the F4E Procurement of Radial Plate prototypes for the EU ITER TF Coils Eva Boter (Fusion For Energy)4BP1-6 - PBN: 20 Vacuum Pressure Impregnation process in superconducting coils: best practice Juan Knaster (ITER)4BP1-7 - PBN: 21 The EDIPO Project: status and outlook Alfredo Portone (Fusion For Energy)4BP1-8 - PBN: 22 Trial fabrication of one-third scale double pancake of ITER Toroidal Field Coil Kunihiro Matsui (Japan Atomic Energy Agency)4BP1-9 - PBN: 23 Progress on the ITER TF Coil Winding Pack Robert Harrison (Fusion For Energy)


4B P2 - Fusion magnet fabrication II 13:00-14:45Chairs: Mark Bird, Patrick DecoolPlace: Exhibition hall

4BP2-1 - PBN: 24 Sub nano-ohm joints in SST-1 TF magnet winding packsUpendra Prasad (Institute For Plasma Research)

4BP2-2 - PBN: 25 Quali�cation of Mass-produced Nb 3Sn Conductors for ITER Toroidal Field Coils in JapanYoshihiro Nabara (Japan Atomic Energy Agency)

4BP2- 3 - PBN: 26 The Status of Technology Research and Development of Correction Coils for ITERLiu Zhihong (Instititute Of Plasma Physics, Chinese Acdemy Of Sciences)

4BP2-4 - PBN: 27 Status of ITER Manufacturing Database for the Magnet System ProcurementKazutaka Seo (ITER Organization)

4BP2-5 - PBN: 28 MANUFACTURING OF ACTIVE IN-VESSEL SADDLE COILS FOR ASDEX UPGRADEWolfgang Walter (Babcock Noell Gmbh)

4BP2-6 - PBN: 29 Development of structures for ITER Toroidal Field Coil in JapanMasahide Iguchi (JAEA)

4BP2-7 - PBN: 30 INDUSTRY STUDY ON THE MANUFACTURING OF THE TF COILS FOR JT-60SAKatrin Heyn (Babcock Noell Gmbh)

4BP2-8 - PBN: 31 Preparation for ITER Central Solenoid conductor manufacturingKazuya Hamada (JAEA)

4CP1 - Resistive Magnets 13:00-14:45Chairs: Sergei Zherlitsyn, Stephane San�lippoPlace: Exhibition hall

4CP1-1 - PBN: 32 Conical Insert Design for the HZB Series-Connected HybridJingping Chen (National High Magnetic Field Laboratory)

4CP1-2 - PBN: 33 NMR at 30 T in resolution and stability enhanced resistive high-�eld magnetsHolger Stork (LNCMI/CNRS)

4CP1- 3 - PBN: 34 Investigation of 15 to 24 MW Resistive Insert Magnets Built into a 20 T ?440mm Room-Temperature Bore Superconducting Outsert MagnetToshihisa Asano (National Institute For Materials Science)

4CP1-4 - PBN: 35 Design and construction of a 38 T resistive magnet at the Nijmegen High Field Magnet LaboratoryStephanus Wiegers (Hfml Imm Radboud University)

4CP1-5 - PBN: 36 Fabrication and Test of a Powered Scattering Magnet at the NHMFLJack Toth (NHMFL)

4CP1-6 - PBN: 37 Resistive Solenoid Development at the NHMFLJingping Chen (National High Magnetic Field Laboratory)

4CP1-7 - PBN: 38 Magnet control and monitoring systemRomain Barbier (CNRS / LNCMI)

4CP1-8 - PBN: 39 DC High �eld magnets at the LNCMIFrancois Debray (CNRS-LNCMI)

4DP1 - Low Field Magnets for MRI 13:00-14:45Chairs: E. DemikhovPlace: Exhibition hall

4DP1-1 - PBN: 40 Self Axial Shimming Field Inhomogenity for MRI MagnetShen Weijun (General Electrical Co)

4DP1-2 - PBN: 41 A magnetic �eld spherical harmonics rapid calculation method of design of shim coils for NMR and MRI MagnetsCong Wen (IEE CAS)

4DP1- 3 - PBN: 42 Quench Protection Design of A 1.5T MRI EquipmentYi Li (IEE CAS)

4DP1-4 - PBN: 4 3 Research on Robustness of Homogeneity for MRI Superconducting MagnetChunzhong Wang (IEE CAS)

4DP1-5 - PBN: 44 MRI Magnet pole plate optimization method by Fourier decompositionVincenzo Punzo (Esaote)

4DP1-6 - PBN: 45 Asymmetrical Gradient Coil Design by Numerical Approach for MRI Brain ImagingXiaofei You (Institute Of Electrical Engineering Chinese Academy Of Sciences)

4DP1-7 - PBN: 46 Design of Cylindrical Transverse Gradient Coil for 1.5T MRI SystemXiaoji Du (Institute Of High Energy Physics, Chinese Academy Of Sciences)

4DP1-8 - PBN: 47 A new concept for a cryogen-free MRI magnetThierry Schild (CEA/Saclay)



4EP1 - FCL materials and designs 13:00-14:45Chairs: Alex Friedman, Tim CoombsPlace: Exhibition hall

4EP1-1 - PBN: 48 Selection Criteria of High Tc Superconducting Tapes for Superconducting Fault Current Limiter Applications

Soumen Kar (Cryogenic Engineering Centre, Indian Institute Of Technology Kharagpur, West Bengal - 721302,India)

4EP1-2 - PBN: 49 Test of Maximum endurable quenching Voltage of YBCO Coated Conductors for Resistive Type Fault Current Limiter Applications

Baihua Lin (Shanghai Jiao Tong University)4EP1-3 - PBN: 50 Conceptual Design of a Current Lead for Superconducting Fault Current Limiters with a sub-

cooled LN2 cooling system according to various gaseous insulation media Hyoungku Kang (Chungju National University)4EP1-4 - PBN: 51 Tests and simulations of different YBCO tapes for FCL Camille Gandioli (Institut NÃ©el/G2Elab)4EP1-5 - PBN: 52 Effects of thermal stress on degradation of YBCO coated conductors due to over-current pulse

drive Xudong Wang (Waseda University)4EP1-6 - PBN: 53 Study on Current Limiting Characteristics of YBCO Thin-film Wire According to Insulation Layer Ho-Ik Du (Advanced Graduate Education Center Of Jeonbuk For Electronics &

Information Technology-Bk21, Chonbuk National University)4EP1-7 - PBN: 54 Study on the Current Limiting Characteristics of YBCO Coated Conductor with Different kinds of

Stabilization Layer Applied to SFCL Using Iron Core and Coil Ho-Ik Du (Advanced Graduate Education Center Of Jeonbuk For Electronics &

Information Technology-Bk21, Chonbuk National University)4EP1-8 - PBN: 55 Evaluation on Current Limiting Performance During 3-Phase Connection Between the Wires for

SFCL and HTS Cable Ho-Ik Du (Advanced Graduate Education Center Of Jeonbuk For Electronics &

Information Technology-Bk21, Chonbuk National University)

4EP2 - Machines for wind turbines 13:00-14:45Chairs: Luis Garcia-Tabares Rodriguez, Jun CaiPlace: Exhibition hall and Level 1 entrance hall

4EP2-1 - PBN: 61 Finite Element Analysis of a 1.0MW Doubly Excited Brushless Machine for Wind Power Generation System

Huijuan Liu (Beijing Jiaotong University)4EP2-2 - PBN: 62 Design of HTS wind turbine generator Min Zhang (Cambridge University)4EP2-3 - PBN: 63 Electromagnetic Design of 10 MW class Fully Superconducting Wind Turbine Generators Yutaka Terao (The University Of Tokyo)4EP2-4 - PBN: 64 A Study on the Comparison Analysis of 10MW class Geared and Gearless type Superconducting

Synchronous Generator (SCSG) for Wind turbine Tae-Won Kim (Research Institute Of Industrial Science And Technology)4EP2-6 - PBN: 65 EMTDC based simulation of 10 MW class grid-connected superconducting wind turbine

generator Tae-Joon Park (Research Institute Of Industrial Science And Technology)4EP2-7 - PBN: 66 Design and analysis of large DC permanent magnet wind turbine generators Mehran Mirzaei (Darmstadt University Of Technology)4EP2-8 - PBN: 67 The Design of a 10MW Offshore Direct Drive HTS Wind Turbine Generator Yudong Jiang (Dec)

4EP3 - Insulation at low temperature 13:00-14:45Chairs: Mathias Noe, Juan KnasterPlace: Level 1 entrance hall

4EP3-1 - PBN: 68 Dielectric characteristics of electro negative gas according to various pressures and utilization factors for developing a superconducting apparatus with sub-cooled nitrogen cooling system

Hyoungku Kang (Chungju National University)4EP3-2 - PBN: 69 Partial Discharge Pattern analyses for HTS power applications in cryogenic environment Seung-Duck Yu (Kpeco Research Institute)4EP3-3 - PBN: 70 Experimental design and test of 100kV extra high voltage prototype bushing for superconducting


electric power applications Woo-Ju Shin (Hanyang University)4EP3-4 - PBN: 71 Identification of insulation defects in HTS transformer by chaotic analysis of partial discharge Injin Seo (Hanyang Univ.)4EP3-5 - PBN: 72 Comparisons of the dielectric strength between SF6 and CF4 considering utilization factors and

Design of a current lead for a high voltage superconducting application system Hyoungku Kang (Chungju National University)4EP3-6 - PBN: 73 Evaluation of uniform and non-uniform Breakdown characteristic of liquid nitrogen with different

electrode materials Woo-Ju Shin (Hanyang University)4EP3-7 - PBN: 74 Comparative evaluation between DC and AC breakdown strength of dielectric insulating materials

in liquid nitrogen Jae-Kyu Seong (Hanyang University)

4FP1 - Other industrial applications 13:00-14:45Chairs: E. Demikhov, Leslie BrombergPlace: Level 1 entrance hall

4FP1-1 - PBN: 75 Pulsed-field magnetization of a superconducting bulk magnet after field-cooling using a permanent magnet

Kazuya Yokoyama (Ashikaga Institute Of Technology)4FP1-2 - PBN: 76 Size effect of magnetizing solenoid coil for pulsed field magnetization on the trapped field on

superconducting bulk Hiroyuki Fujishiro (Iwate University)4FP1-3 - PBN: 77 A study on characteristics of the trapped magnetic field for HTS bulk superconducting actuator by

AC operating Seokbeom Kim (Okayama University)4FP1-4 - PBN: 78 Design and Experiments of a High Field Electromagnetic Forming System Li Qiu (Wuhan National High Magnetic Field Center)4FP1-5 - PBN: 79 Fabrication and Test of a Solid Nitrogen Cooled MgB2 Magnet Sangjun Oh (National Fusion Research Institute)4FP1-6 - PBN: 80 Numerical Model for Motion Dynamics of Micro- Magnetic Beads under External Magnetic Field

and Liquid Motion Myung Ki Baek (Sungkyunkwan University)4FP1-7 - PBN: 81 A New Distributed Vernier Traveling Wave Induction Heater for Heating Moving Thin Strips Youhua Wang (Hebei University Of Technology)4FP1-8 - PBN: 82 Vibration Transmission Analysis in a Superconducting Seismic Isolation Device with PM and

Copper Plate Systems Shuhei Sasaki (Tokohu University)

4GP1 - Coated conductors II: Electrical and magnetic characterization 13:00-14:45Chairs: Valeria Braccini, Riccardo TediosiPlace: Level 1 entrance hall and Hall Callelongue

4GP1-1 - PBN: 83 METAMAGNETIC BEHAVIOR OF YBa2Cu3O7-d BULK SAMPLE AT 4.2K Samir Khene (Badji Mokhtar University Of Annaba)4GP1-2 - PBN: 84 I-V Characteristics,Minimum quench energy and Normal Zone Propagation Studies of Forced

Flow Gas cooled YBCO tape Ananya Kundu (Institute For Plasma Research)4GP1-3 - PBN: 85 Characterization of YBCO coated conductors between 20 and 30 T Xavier Chaud (CNRS/LNCMI)4GP1-4 - PBN: 86 AC losses of YBCO coated conductor with ferromagnetic substrate in Background DC field Guomin Zhang (Institute Of Electrical Engineering)4GP1-5 - PBN: 87 Low Temperature and Magnetic Field Performance of Spliced Commercial YBCO Coated

Conductors Riccardo Tediosi (Bruker Biospin)4GP1-6 - PBN: 88 Study on the electrical and magnetic properties of the Ru(Sr2-xBax)GdCu2O8±z and the Ru1-

xFexSr2GdCu2O8±z systems Mohamed Abatal (Universidad AutÃ Â³Noma Del Carmen)4GP1-7 - PBN: 89 Hot spot behavior of Y123 coated conductors Satohi Awaji (Imr, Tohoku University)

4GP2 - Coated conductors III: materials development 13:00-14:45Chairs: Justin Schwartz, Danko van der Laan



Place: Hall Callelongue

4GP2-2 - PBN: 90 Properties of recent IBAD-MOCVD Coated Conductors relevant to their high field, low temperature magnet use

Valeria Braccini (NHMFL)4GP2-3 - PBN: 91 Effect of the deposition rate of SmBCO film on the physical properties of SmBCO coated conductor

fabricated by reactive co-evaporation method Hosup Kim (Korea Electrotechnology Research Institute)4GP2-4 - PBN: 92 Study of self-assembled oxide nanostructures grown by chemical solution deposition M Liu (Beijing University Of Technology)4GP2-5 - PBN: 93 Superconducting properties for ternary NSG123 filaments doped with metal Yumiko Ikebe (Meijo University)4GP2-6 - PBN: 94 Study on Phase Changes of Nano-Surface of Heat-treated YBCO Coated Conductors (CCs) Yoon Hyuck Choi (Korea University)4GP2-7 - PBN: 95 Influence of Zr- and Sn-doping on Sm-Ba-Cu-O filaments fabricated by chemical solution

spinning Eriko Ban (Meijo University)4GP2-8 - PBN: 96 Effect of Yb substitution on microstructure and properties of Y1-xYbxBCO films S Ye (Beijing University Of Technology)

4GP3 - Design and analysis of LTS conductors 13:00-14:45Chairs: Christophe Trophime, Gen NishijimaPlace: Hall Callelongue

4GP3-1 - PBN: 97 Analysis on Dynamic Stability of LTS/HTS Hybrid Composite Conductors with New Geometrical Structure

Yinshun Wang (North China Electric Power University)4GP3-2 - PBN: 98 Numerical Analysis on Current-sharing Temperature of LTS/HTS Hybrid Conductor Yingmin Cui (North China Electric Power University)4GP3-4 - PBN: 99 Research of Optimization Model for CICC Simulation Design Based on Stability Huawei Jiang (Henan University Of Technology)4GP3-5 - PBN: 100 Error estimation in the Tcs measurement of CICCs Marco Breschi (University Of Bologna, Bologna, Italy)4GP3-6 - PBN: 101 A Study on Recovery Characteristics of Spliced Tapes from the View of Thermal and Electrical

Variation for Magnet Applications Hyung Jun Kim (Yonsei University)

4GP4 - LTS cable characterization 13:00-14:45Chairs: Matt Jewell, Long FengPlace: Hall Callelongue

4GP4-1 - PBN: 102 Test results of a 100 kA NbTi CICC Pierluigi Bruzzone (EPFL-CRPP)4GP4-2 - PBN: 103 Manufacture and Acceptance Test of the Full Size ITER PF5 Conductor Sample Feng Long (Institute Of Plasma Physics,Chinese Academy Of Sciences)4GP4-3 - PBN: 104 Strain Measurements of Superconductors with a 50 kN Cryogenic Load Frame by a Neutron

Diffractometer at J-PARC TAKUMI Xinzhe Jin (KEK (Inter-University Research Institute Corporation High Energy Accelerator

Research Organization))4GP4-4 - PBN: 105 Electromagnetic characterisation of prototype Cable-in-Conduit Conductors for the Nijmegen

HFML hybrid magnet Andries Den Ouden (Radboud University Nijmegen)4GP4-5 - PBN: 106 Conductor Performance Qualification of KOTF3 Sample for ITER TF Magnet Soo-Hyeon Park (National Fusion Research Institute)4GP4-6 - PBN: 107 The LHC 13kA bus bar: the CERN facility Rosario Principe (CERN)4GP4-7 - PBN: 108 Aluminum Stabilized NbTi Conductor Test Coil Design, Fabrication, and Test Results Nikolai Andreev (Fermilab)4GP4-8 - PBN: 109 Superconducting cable tests at high magnetic fields Daniele Turrioni (Fermilab)

4HP1 - Measurement and instrumentation 13:00-14:45Chairs: Alain Poncet, Davide UgliettiPlace: Hall Callelongue and Auditorium foyer


4HP1-1 - PBN: 110 Performance test of a superconducting switch for NMR magnetChunyan Cui (IEE CAS)

4HP1-2 - PBN: 111 Feasibility study of a high voltage In-Service-Test on the superconducting magnet system of Wendelstein 7-XFrank Fuellenbach (Max-Planck-Institut Fuer Plasmaphysik)

4HP1- 3 - PBN: 112 A New Test Station at LNCMI-G to Measure the Critical Current of Superconducting StrandsRolf P�ster (LNCMI-G)

4HP1-4 - PBN: 11 3 Thermo-Mechanical Instrumentation for the ITER Magnets’ StructuresFelix Rodriguez-Mateos (ITER)

4HP1-5 - PBN: 114 An innovative test bench for HTS cablesMarco Statera (UniversitÃ Â Di Ferrara)

4HP1-6 - PBN: 115 Noncontact Characterization of In-plane Distribution of Critical Current Density in Multi�lamentary Coated ConductorKohei Higashikawa (Kyushu University)

4HP1-7 - PBN: 116 The E�ects of Shape of Piezoelectric Ceramics on Performance of an Acoustic Emission (AE) SensorDong Gyu Yang (Korea University)

4HP1-8 - PBN: 117 Optical �ber sensors based on Rayleigh backscattering for monitoring HTS magnetsTMelanie Turenne (Muons, Inc.)

4HP1-9 - PBN: 118 Contactless determination of critical current density of superconducting �lmsJanu Zdenek (Institute Of Physics As Cr, V.V.I.)

4IP1 - Magnet design 13:00-14:45Chairs: Soren Prestemon, Kazutaka SeoPlace: Auditorium foyer

4IP1-1 - PBN: 119 Optimal Design of a 90° Superconducting Bending Magnet with active shielding Using Topology OptimizationThibault Elhaut (Université Catholique De Louvain)

4IP1-2 - PBN: 122 Research on a new type of cylindrical asynchronous linear motor with helical windingsHousheng Wang (IEE CAS)

4IP1- 3 - PBN: 12 3 High Temperature Superconductor Maglev Model Vehicle in Evacuated TubeJing Jiang (Superconductivity R&D Center (Srdc), Southwest Jiaotong University, Chengdu 6100 31, China)

4IP1-4 - PBN: 124 Analysis of false residual current in residual current device by 3D FEMBo Zhang (Province-Ministry Joint Key Laboratory Of Electromagnetic Field And Electrical Apparatus Reliability, Hebei University Of Technology,Guangrong Road 8, Hongqiao, Tianjin 3001 30, China)

4IP1-5 - PBN: 125 Optimization of Degaussing Coil Currents for Magnetic Silencing of a Ship taking the Ferromagnetic Hull E�ect into accountDong-Hun Kim (Kyungpook National University)

4IP1-6 - PBN: 126 The preliminary design of a pair of quasi-periodic elliptically polarized undulators at SSRFWei Zhang (SSRF)

4IP1-7 - PBN: 127 Design and measurement of the pulsed magnets for the Taiwan photon sourceCheng-Ying Kuo (NSRRC)

4IP1-8 - PBN: 128 A simulation study of the impact of gradient waveform frequency on eddy currents in MRISilke Lechner-Greite (Ge Global Research Europe)

4IP1-9 - PBN: 129 Design and Analysis of a Coil Magnet Applied for a Space Magnetoplasmadynamic ThrusterWenjiang Yang (Beihang University)

4IP1-10 - PBN: 120 Study on Lesion Localization with MagneticWenrong Yang (Hebei University Of Technology)

4IP1-11 - PBN: 121 Magnetic Design of the Advanced Light Source Harmonic Sextupoles*Arnaud Madur (Lawrence Berkeley National Laboratory)

4IP2 - Re�ned magnetic calculations 1 13:00-14:45Chairs: Jean-Luc Duchateau, Ian PongPlace: Auditorium foyer

4IP2-1 - PBN: 1 30 An application of magnetic measurements for study of local transport characteristics of modern superconducting materialsIgor Rudnev (National Nuclear Research University Mephi)

4IP2-2 - PBN: 1 31 Analysis of Chaos in Josephson-Junction with External Magnetic Field for High-Precision Voltage Measurement in Electric VehiclesZhen Zhang (The University Of Hong Kong)



4IP2-3 - PBN: 132 Numerical Simulation of Permanent Magnet Method for Jc-Measurement in HTS Thin Film: Enhancement of Spatial Resolution

Soichiro Ikuno (Tokyo University Of Technology)4IP2-4 - PBN: 133 Time-Domain Modeling of Magnetic Resonant Wireless Power Transfer System in Bio-Implantable

Devices for Optimal Design Xiao Luo (The Hong Kong Polytechnic University)4IP2-5 - PBN: 134 Optimization of Ferromagnetic Annuli to Increase the Critical Current of an HTS Magnet Min Cheol Ahn (Kunsan National University)4IP2-6 - PBN: 135 Magnetic Field Analysis of Magnetic Liquid used to Hyperthermia Wenrong Yang (Hebei University Of Technology)4IP2-7 - PBN: 136 Magnetic Field Simulation for Ships by an Optimized Multi-Dipole Magnet System Zhihai Guo (Beihang University)4IP2-8 - PBN: 137 SALOME as a platform for magneto-mechanical simulation Francois Nunio (CEA Saclay)

4IP3 - Refined magnetic calculations 2 13:00-14:45Chairs: Jean-Luc Duchateau, Matt JewellPlace: Auditorium foyer

4IP3-1 - PBN: 138 A Novel Direct-start Post-assembly Magnetized Surface-mounted Permanent Magnet Synchronous Motor and its Performance Analysis Using Finite-element Method

H.L. Li (The Hong Kong Polytechnic University)4IP3-2 - PBN: 139 A Parameterized Mesh Based Optimal Design Method of Magnetic Gears Using Finite Element

Method Yanpu Zhao (The Hong Kong Polytechnic University)4IP3-3 - PBN: 140 Research on the inductance variation of HTS magnet Meng Song (Meng Song)4IP3-4 - PBN: 141 Comparative study of coil shapes in wireless energy transfer system W. K. Lee (The Hong Kong Polytechnic University)4IP3-5 - PBN: 142 A Fully Parameterized Initial Mesh Generation and Refinement Method for Numerical Computation

of Electromagnetic Field Yanpu Zhao (The Hong Kong Polytechnic University)4IP3-6 - PBN: 143 A Novel Position Detection Method of a Dual-structure Permanent Magnet Machine at Standstill

Using Transient Finite Element Analysis W.N. Fu (The Hong Kong Polytechnic University)4IP3-7 - PBN: 144 Improvement on the Accuracy of Cogging Torque Computation of Fractional-slot Flux-modulated

Permanent Magnet Machines Shuangxia Niu (The Hong Kong Polytechnic University)

4JP1 - Magnets for laboratory applications 13:00-14:45Chairs: Kiyoshi Yoshida, Riccardo MusenichPlace: Auditorium foyer

4JP1-1 - PBN: 145 1-G HTS split coil magnet for research purposes Sergey Fetisov (Jsc Vniikp)4JP1-2 - PBN: 149 Design and Fabrication of HTS Coils for a Vector Magnet Mitsuho Furuse (National Institute Of Advanced Industrial Science And Technology)4JP1-3 - PBN: 150 9 T NbTi cryogen free HTS test facility Timofey Demikhov (Rti, Cryomagnetic Systems)4JP1-4 - PBN: 151 7 Tesla cryogen-free fast ramping magnet Roger Mitchell (Cryogenic Ltd)4JP1-5 - PBN: 152 Design of a strong gradient magnet for the deflection of nano clusters. Bert Masschaele (Wave Propagation And Signal Processing Research Group K. U.

Leuven Campus Kortrijk)4JP1-6 - PBN: 153 Development of high Magnetic Field Superconducting Magnet Technology for Pulsed Power

System Shengyi Song (Institute Of Fluid Physiscs, Caep)4JP1-7 - PBN: 154 Development of the Superconducting Magnet System with Zero Evaporation for Electron Beam

Ion Trap Wenge Chen (High Magnetic Field Laboratory, Chinese Academy Of Sciences)4JP1-8 - PBN: 155 Superconducting magnets for magnetic gravity compensation of fluids Francois Millet (CEA/Dsm/Inac/Sbt)4JP1-9 - PBN: 156 A commercial HTS dipole magnet for X-ray Magnetic Circular Dichroism (XMCD) experiments Taotao Huang (Hts-110 Ltd)4JP1-10 - PBN: 146 Bolt on cryogen free magnets for applications with shared pulse tube cooling Andrew Twin (Oxford Instruments)


4JP1-11 - PBN: 147 Split magnet for efficient electron cyclotron resonance ion sources developments Thierry Lamy (Lpsc-Ujf-CNRS/In2P3-Inpg)4JP1-12 - PBN: 148 A cryo-free 10 T high-field magnet system for a novel superconducting application Wolfgang Stautner (Ge Global Research)

4JP2 - Special accelerator applications 13:00-14:45Chairs: Arjan Verweij, Alexander ZlobinPlace: Auditorium foyer

4JP2-1 - PBN: 157 Comparison of different configurations of NbTi magnetic lenses Zhiyu Zhang (National Institute For Materials Science, Kyushu University)4JP2-2 - PBN: 158 HTS insert magnet design study Mélanie Devaux (CEA Saclay)4JP2-3 - PBN: 159 Design optimization and prototype fabrication of HTS magnets Cristian Boffo (Babcock Noell Gmbh)4JP2-4 - PBN: 160 Novel Approach to Linear Accelerator Superconducting Magnet System Vladimir Kashikhin (Fermilab)4JP2-5 - PBN: 161 Modelling and Measurement of Helical Undulators based on Tubular Type Nb3Sn Wire Mike Sumptioin (Csmm,Mse, The Ohio State University)4JP2-6 - PBN: 162 Development of coil technology for HEP high field magnets using YBCO Coated Tapes Vito Lombardo (Fermilab)4JP2-7 - PBN: 163 Fabrication of YBCO small test coils for the accelerator magnet development Kei Koyanagi (Toshiba Corporation)4JP2-8 - PBN: 164 Conduction cooled high temperature superconducting dipole magnet for accelerator applications Gunver Nielsen (Danfysik, Jyllinge, Denmark)

4KP1 - Magnetic measurements II 13:00-14:45Chairs: Pierre Schnizer, Ken SasakiPlace: Auditorium foyer and Level 0 hall

4KP1-1 - PBN: 165 Use of the Phase Lock Loop in the vibrating wire technique for finding the magnetic axis of the quadrupoles in the Swiss Free Electron Laser

Stephane Sanfilippo (Paul Scherrer Institut)4KP1-2 - PBN: 166 Cryogen - Free Setup for Local and Integral Magnetic Field Measurements of Superconducting

Undulator Coils Andreas Grau (Karlsruhe Institute Of Technology (Kit))4KP1-3 - PBN: 167 Determination of superconducting material critical current density from magnetic field diffusion

measurement Bruno Douine (Nancy University)4KP1-4 - PBN: 168 The cold test of Super-FRS Superconducting Dipole Prototype for FAIR Projects Lizhen Ma (Institute Of Modern Physics)4KP1-5 - PBN: 169 A Novel Machine for Scanning Permanent Magnets Used in Magnetic Angle Sensors Marjan Blagojevic (Senis Gmbh)4KP1-6 - PBN: 170 Magnetic Measurement of the Current Centre Line of the TF Coils of ITER Elwyn Baynham (Magnetech)4KP1-7 - PBN: 171 Magnetic Field Measurement of an AC Quadrupole Magnet Prototype for CSNS RCS Li Li (Institute Of High Energy Physics, CAS)4KP1-8 - PBN: 172 High Temperature Magnetization Measurement System in Pulsed High Magnetic Field Bo Zhang (Wuhan National High Magnetic Field Center, Huazhong University Of

Science And Technology)4KP1-9 - PBN: 173 Dynamic Characterization of a Field Marker for Particles Accelerator based on Ferrimagnetic

Resonance Effects Giancarlo Golluccio (University Of Sannio)4KP1-10 - PBN: 174 Magnetic filed measurement and passive shimming of the superconducting magnet for Lanzhou

Penning Trap Wei Wu (Institute Of Modern Physics Of Chinese Academy Of Science)4KP1-11 - PBN: 175 Adaptative hardware and Software architecture for generic Cryogenic Test Facility Frédéric Molinié (CEA Ce Saclay)

4KP2 - Mechanical, Electrical and Cryogenic Measurements II 13:00-14:45Chairs: Francois Kircher, Stephen MarchPlace: Level 0 hall

4KP2-1 - PBN: 176 Crosstalk issues between magnets in the synchrotron radiation accelerator



Jyh-Chyuan Jan (National Synchrotron Radiation Research Center)4KP2-2 - PBN: 180 Electrical AC tests on CICC coil for series-connected hybrid magnet

Hartmut Ehmler (Helmholtz-Zentrum Fuer Materialien Und Energie)4KP2- 3 - PBN: 181 Localisation of Electrical Faults in Accelerator Magnets with Time Domain Re�ectometry

MethodAndrzej Sta�niak (GSI)

4KP2-4 - PBN: 182 Stress and strain Measurement On the 5 T superconducting magnetMingzhi Guan (Institute Of Modern Physics, Chinese Academy Of Sciences)

4KP2-5 - PBN: 18 3 Test Results of the Model coil for the Superconducting Outsert of the 40T Hybrid MagnetWenge Chen (High Magnetic Field Laboratory, Chinese Academy Of Sciences)

4KP2-6 - PBN: 184 Study on measuring Tokamak magnets displacement based on computer visionWeibin Xi (Institute Of Plasma Physics.CAS)

4KP2-7 - PBN: 185 Impact of the voltage transients after a fast power abort on the quench detection system in the LHC main dipole chainEmmanuele Ravaioli (CERN)

4KP2-8 - PBN: 186 AC losses in TQS0 3, a LARP Nb 3Sn quadrupole using RRP conductorAttilio Milanese (CERN)

4KP2-9 - PBN: 187 Development of a Cryogenic Calorimeter for Investigating the Heat Load of Superconducting UndulatorsJian Cui (Shanghai Institute Of Applied Physics,Chinese Academy Of Sciences)

4KP2-10 - PBN: 177 Monitor System for Ripple of Magnet FieldsShaofei Han (Impcas)

4KP2-11 - PBN: 178 Measurement of Transport Characteristics in HTS Conductors with Large Current Capacity by Using HTS Current TransformerShuma Kawabata (Kagoshima University)

4KP2-12 - PBN: 179 ATLAS Magnets Quench Protection, Safety and Controls System ExperienceGert Olesen (CERN)

4G O2 - New Developments and applications 15:00-17:00Chairs: Mike Sumption, Yoshikazu Takahashi Place: Endoume

4GO2-1 - 15:00 Impact of the Residual Resistivity Ratio on the Stability of Nb 3Sn MagnetsBernardo Bordini (CERN)

4GO2-2 - 15:15 Phase formation and Sn distribution in binary and Ta-alloyed Nb 3Sn wires produced by various techniquesCarmine Senatore (University Of Geneva)

4GO2- 3 - 15: 30 Conductor development for accelerator magnets based on Tin-in-Tube Nb 3Sn wireEmanuela Barzi (Fermilab)

4GO2-4 - 15:45 Strain and magnetic-�eld characterization of a bronze-route Nb 3Sn ITER wire: Benchmarking of strain measurement facilities at NIST and University of TwenteNajib Cheggour (NIST)

4GO2-5 - 16:00 Possible pining center of transformation-processed Nb 3Al superconductorsNobuya Banno (National Institute For Materials Science)

4GO2-6 - 16:15 A metallographic study of the ITER TFEU5 CICC after testing in the SULTAN facilityPeter Lee (National High Magnetic Field Laboratory, Florida State University)

4GO2-7 - 16: 30 Study and Development of the Superconducting Conductor for the Grenoble Hybrid MagnetPierre Pugnat (LNCMI-G)

4GO2-8 - 16:45 Critical Current in High-Jc Nb 3Sn Rutherford cables a�ected substantially by the direction of the applied magnetic �eldWillem Michiel de Rapper (CERN/University Of Twente)

4HO 1 - Current leads + Cryogenics 15:00-17:00Chairs: Friedrich Lackner, Rainer WeschePlace: Callelongue

4HO1-1 - 15:00 Investigation on high-power Stirling-type pulse tube coolers for cooling HTS motorsDaming Sun (Institute Of Refrigeration And Cryogenics Of Zhejiang University, P.R. China)

4HO1-2 - 15:15 Quench Simulation and Detection in EAST Poloidal Fields HTS Current Leads SystemYanlan Hu (Institute Of Plasma Physics,CAS)

4HO1- 3 - 15: 30 Feasibility Studies of the ITER Cryogenic System at KSTARHyun-Sik Chang (ITER Organization)

4HO1-4 - 15:45 Development of cryogenic oscillating heat pipe as a new device for indirect/conduction cooled superconducting magnets


Kyohei Natsume (Sokendai)4HO1-6 - 16:15 Helium Cooling System for MICE Superconducting Coupling Magnets Li Wang (Shanghai Institute Of Applied Physics, CAS, China)4HO1-7 - 16:30 Dynamic simulation of a sub-scale ITER CS/structure cooling loop Ryuji Maekawa (ITER)4HO1-8 - 16:45 Investigation of HTS current leads under pulsed operation for JT-60SA Sandra Drotziger (Karlsruhe Institute Of Technology - Institute For Technical Physics,

Germany)

4HO2 - Quench detection and magnet protection 15:00-17:00Chairs: Cesar Luongo, Daniel CiazynskiPlace: Auditorium

4HO2-3 - 15:00 Analysis of the propagation velocity of the LHD helical coil.(Invited) Shinsaku Imagawa (National Institute For Fusion Science)4HO2-1 - 15:30 Parametric analysis of the ITER TF fast discharge using the 4C code Laura Savoldi Richard (Dipartimento Di Energetica, Politecnico Di Torino)4HO2-2 - 15:45 Protection Heater Development for YBCO Coils Patrick Noyes (NHMFL)4HO2-4 - 16:00 Thermal behaviour and quench of the ITER TF System during a fast discharge and possibility of

a secondary quench detection Sylvie Nicollet (CEA/Irfm Saint-Paul-Lez-Durance 13108 France)4HO2-5 - 16:15 Internal Transient Over-voltages in Large Fusion Coils Walter Fietz (Karlsruhe Institute Of Technology, Karlsruhe, Germany)4HO2-6 - 16:30 Study of Electromagnetic Noise Influence on Quench Detection System Under Different Discharge

Conditions in EAST Tokamak Yanlan Hu (Institute Of Plasma Physics,CAS)

Friday, 16 September 2011

PT7 - LHC commissioning and performance 11:00-11:45Speaker: Lyndon Evans (Imperial College, London And CERN, Geneva)Chairs: Arnaud Devred, Gijs de RijkPlace: Auditorium

5IO - Magnet design analysis and performance 8:30-10:30Chairs: Francois Kircher, Pierre Manil Place: Auditorium

5IO-2 - 8:45 Computation of strain state in Nb3Sn strands using nonlinear hierarchical models Brett Collins (Lawrence Berkeley National Laboratory)5IO-3 - 9:00 Stick-slip mechanism in the training of the superconducting magnets of the Large Hadron

Collider Clement Lorin (CERN)5IO-4 - 9:15 Development and validation of novel numerical model for ITER PF double pancake joints Ezra van Lanen (University Of Twente)5IO-5 - 9:30 A Target Field Approach to Open MRI Magnet Design Franco Bertora (Italian Institute Of Technology)5IO-7 - 9:45 Complete Quench Simulation of Large Solenoid Magnet Masayoshi Wake (KEK)5IO-8 - 10:00 The LHC incident in sector 3-4: a simplified mechanical model to explain the mechanical

damages Paolo Fessia (CERN)

5JO - Electrical and magnetic measurements 8:30-10:30Chairs: Davide Tommasini, Thierry SchildPlace: Endoume

5JO-1 - 8:30 Electrical Integrity Risk Assessment for Superconducting Magnets Andrzej Siemko (CERN)5JO-2 - 8:45 In situ Tc measurements in cable in conduit conductors via inductive method Ciro Calzolaio (EPFL-CRPP Association Euratom - ConfÃ©dÃ©ration Suisse Ch-5232

Villigen Psi, Switzerland)


18 - AUTHOR INDEX (all primary and co-authors included)

AAbatal Mohamed 4GP1-6Abdel Maksoud Walid 1DP1-1,

1HP1-1, 1DP1-2, 2DO-6Abdyukhanov Ildar 1GP2-6Abe Akihisa 4FO-2Abe Mitsushi 3KP2-4Abliz Melike 2AP3-3Abraimov Dmytro 4GP2-2Abramian Pablo 3AP3-7, 2EP6-7,

3KP1-4Abächerli Vital 2GO1-1Adamczyk Krzysztof 2GO1-3,

2GP2-3, 2GP2-5Affinito Luigi 2CP1-7Agari Keizo 4AP2-1, 4AP2-2, 1AO-4Ahn Min Cheol 1IP1-5, 1IP1-9, 4HP1-7, 3EP3-7, 4IP2-5, 2EP4-6, 1EO1-1, 1EP3-6Ahn Min Cheol 3CP1-7Ailam El Hadj 2EP5-2, 2EP5-4Aizawa Kazuya 1GP1-6, 2BO-7Akishin Pavel 3AP3-6, 1AP3-7Akiyama Yoko 3FP1-5, 2GP3-9,

3FP1-7, 3JP1-10Al Garren 4AP1-4Alessandrini Matteo 4GP1-5,

2CO-1Alexander Pikin 3IP2-6Alferov Vladimir 3KP1-2Alknes Patrick 4GO2-2Allais Arnaud 1EO2-2Allard Jérôme 2HP1-1, 4KP1-11Amata Hirohito 3EP2-4Ambrosio Giorgio 1AO-6, 5JO-4, 4AP2-4,

2AO-4, 4AP2-5, 3AP2-8, 3KP1-7,2AO-6, 4AP2-8, 4AP2-9, 4AP1-6

Amemiya Naoyuki 2EP6-2, 5JO-7, 1EP4-6, 3AP2-7,3KP1-8, 4JP2-7, 2DO-5

Amend Johannes 4BP1-7, 2CP1-6, 4BP2-5

Amiet Michel 1EO2-1Amm Bruce 4IP1-8Amm Kathleen 2DO-3Ams Magnet Group 1AO-8An Dong Hyun 2DP1-3, 2DP1-5An Shizhong 3AP1-3

Anashkin Igor 1BP1-6Ando Ryuya 3KP2-4Andreev Nikolai 2AO-1, 3AP3-2, 4AP1-3,

1AO-6, 5JO-4, 3AP2-5, 4GP4-7Anerella Mike 5JO-4, 4AP2-4, 4AP1-4,

2AO-4, 3IP2-6, 4AP2-5,4FO-6, 3AP2-8, 4AP2-9

Anstett Denys 2HP1-1Antaya Timothy 2HP1-3Aoki Itsuo 2GP2-7Aoki Manabu 3KP2-4Aoki Yuji 4EP1-5Apiñániz Susana 2EP6-7Apollinari Giorgio 2AO-1, 3AP2-5Arai Daichi 1BP2-2, 1BP2-3Arbelaez Diego 5IO-2, 2IP2-5, 4IP1-11,

2DP1-8, 4FO-3Arenholz Elke 4FO-3Arimoto Yasushi 2AP2-3Arpaia Pasquale 4KP1-9, 3KP1-5Arslanova Darya 1HP1-8Asahi Koichiro 2AP2-3Asano Syunsuke 1HP2-1Asano Toshihisa 2CP1-1, 4CP1-3Astrov Mikhail 3IP1-1Aubele André 2GO1-1Aubert Guy 2DO-6Auchmann Bernhard 2IP1-1, 2AO-1,

3AP2-5Awaji Satoshi 2CP1-1, 4GP4-3,

1GP3-3, 1GP1-6, 2GP2-6,3GP2-3, 4GP2-5, 4GP2-7,

4GP1-7, 3CP1-1

BB Sarkar 2IP2-7, 2IP2-10Badcock Rod 1IO2-6Badel Arnaud 1EO2-1Bae Joon-Han 3EP1-1, 1EP2-6Bae Sun-Ho 3EP2-1Baek Myung Ki 3DP1-7, 4FP1-6Bagrets Nadezda 3KP2-2, 5JO-6Bai Hongyu 2CO-6Bajas Hugues 1IO1-5Bajko M. 2AP2-9, 4KP2-8, 3AP2-4Baker Bill 2CP1-6Baker William 4BP1-7

Baldan Carlos 3EP1-8, 2EP4-5Baldzuhn JüRgen 1BP1-4Balhan Bruno 1AP1-4Ball Steven 1IO2-7Balle Cristoph 1GP3-6Ban Eriko 4GP2-5, 4GP2-7Banno Nobuya 4GO2-5, 1GP3-1,

1GP3-2Bao Xuzheng 1EP2-1Barabaschi Pietro 1BO-3, 1BO-4,

3BP1-5, 3IP3-7Barbero Paolo 4BP1-5Barbero Soto Esther 2BP2-5,

4BP1-5, 1BO-1Barbier Romain 4CP1-7, 4CP1-2Bargueden Patrick 2HP1-1Barion Luca 4HP1-5Barladyan Alexandr 2AP2-6Barnes Mike 2DP1-2Bartels Hans-Werner 4BP2-4Barth Christian 2GO1-4Barzi Emanuela 2AO-1, 1GP3-2, 4AP1-3,

4AP2-4, 4AP2-8, 4JP2-6, 4GO2-3BascuñáN Juan 1DP2-4, 1DP2-5,

1DP2-6, 2DO-8, 1DP1-6Basilio Reinaldo 2AP1-2Bates Chip 3GP1-6Batista Rita 2BP2-5, 1BO-1, 4BP1-5Bauche Jérémie 1AP2-9Baudouy Bertrand 3KP2-6Bauer Pierre 3IP3-3, 3HP1-3,

3HP1-5, 3HP1-6, 3HP1-7,3HP1-8, 1HP1-9, 3HP1-10

Baumann Henri 3JP1-1Baumbach Tilo 2AP3-1, 4KP1-2Baumgartner Thomas 1GP3-5Baurichter Arnd 4JP2-8Baynham Elwyn 4KP1-6Beard Jérôme 2CO-4Beaudet François 2DO-6Beeckman William 2IP1-8Beemsterboer Cornelis 2BP2-2,

2BP2-6Bellesia Boris 2BP2-5, 1BO-1, 4BP1-5Bellina Fabrizio 2IP2-8Belorgey Jean 2DO-6Belyakov Valery 2IP1-4Benallal Mohammed Nadjib 2EP5-2,

5JO-3 - 9:00 Modeling of the voltage waves in the LHC main dipole circuits Emmanuele Ravaioli (CERN)5JO-4 - 9:15 Field Quality Study of the LARP Nb3Sn 3.7m-long Quadrupole Models of LQ series Gueorgui Velev (Fermi National Accelerator Laboratory)5JO-5 - 9:30 Paschen tests in superconducting coils : why and how Juan Knaster (ITER)5JO-6 - 9:45 Cryogenic test facility CryoMaK Nadezda Bagrets (Institute For Technical Physics - Itep, Karlsruhe Institute Of Technology

- Kit)5JO-7 - 10:00 Magnetic field harmonics measurements of small GdBCO dipole magnet Naoyuki Amemiya (Kyoto University)5JO-8 - 10:15 A Novel Magnet for AC Loss Measurements on 2G Superconductor Coils in Axial and Radial

Magnetic Fields Sastry Pamidi (Center For Advanced Power Systems)


2EP5-4Bendali Sofiane 3GP3-7Beneduce Concetta 4GP1-5,

2CO-1Beom-Yong Eom 3EP1-1Berger Kevin 3GP3-7, 4KP1-3Berglund Dana 3GP1-6Bermond Stephane 2DO-6,

2GP1-6Bernardes André 3EP1-8Berriaud Christophe 4GO2-7,

2CP1-5, 3KP2-6, 2GP1-6,2AP2-8, 4DP1-8, 2DO-6

Berteaud Philippe 2AP1-8Berthier Claude 4CP1-2Berthier Romain 2CP1-5Bertora Franco 5IO-5Besio Stefano 4DP1-5Bessette Anne 3KP2-6Bessette Denis 4HO2-4, 2BO-4, 3BP2-

1, 2BP1-3, 2HP1-4, 2BP1-5, 5JO-2,4HO2-1, 3BP2-4, 4GO1-7, 4GP3-5,

1HP1-8, 1BO-2, 1HP1-9, 4GO1-1Bevillard Gregory 4BP2-4, 4GO1-1Beziuk Grzegorz 4KP2-3Bi Yanfang 3HP1-1, 2GP3-6,

3HP1-3, 3HP1-4, 3HP1-6,3HP1-7, 3HP1-10

Bianchi Marco 1AP1-7Bielert Erwin 1HP2-6, 2AO-3Billette Julien 2CO-4Bingham B. 2AO-4, 2AO-6Bird Mark 2CO-6, 4CP1-5,

4CP1-6, 2CP1-7Black Alan 4FO-3Blagojevic Marjan 4KP1-5Blowers Jamie 1AP3-4Bocian Dariusz , 4AP2-8Boerste Kurt 2AP3-3Boffo Cristian 2AP3-1, 4JP2-3Bogdanov Igor 3AP3-1, 1AP3-1Bole Scott 2CO-6, 4CP1-5Bondarchuk Eduard 2AP1-4,

3BP1-1Bonifetto Roberto 4HO2-1, 3BP2-5Bonito-Oliva Alessandro 2BP2-5,

1BO-1, 4BP1-5, 3IP3-6, 1BP1-7, 1BP1-9Bonn Jochen 2AP2-2Borburgh Jan 2DP1-2, 1AP1-4Borceto Alice 5IO-5Bordanovsky Yury 3KP1-2Bordini Bernardo 1GP1-4,

4GO2-2, 4GO2-8, 1GP3-5,1GP3-6, 4GO2-1, 1GP1-8, 1GP1-9

Borgnolutti Franck 1AP3-8Börsch Michael 3HP2-3Bosch-Tous Ricard 2EP6-3Bosi Filippo 1AO-1Bossert Marianne 1GP3-7Bossert R. 2AO-1, 5JO-4, 4AP2-4,

3AP2-5, 2AO-4, 3AP2-8, 2AO-6, 4AP2-8Boter Eva 2BP2-5, 1BO-1, 4BP1-5Bottura Luca 1GP1-4, 4GO2-8,

1GP3-5, 1GP3-6, 4GO2-1,1GP1-8, 4KP2-8, 1AP1-7,

1AP3-8, 2AO-5, 4GO2-2Boussuge Thierry 2HP1-1Boutboul Thierry 2BP1-3, 4GO1-7,

1GP1-9, 4GO1-1Bouty André 2HP1-1, 4KP1-11Bouvet Francois 2AP1-8Bouziat Denis 3KP2-6

Boyer Christelle 2BP2-2, 2BP2-6, 3IP3-6Braccini Valeria 4GP2-2Bragagni Albano 2GP1-7Bragin Alexey 2AP2-7, 2HP2-2Brahmbhatt Priyanka 2GP3-8Brandt Jeffrey 1AO-6Bratu Eugen 4GO1-1Bremer Johan 1AP2-5, 1GP3-6Breschi Marco 4GO1-7, 1AP1-7,

4GP3-5Bresson Daniel 2DO-6Brice Hannah 2GO2-2Briggs Neil 4JP1-9Brindza Paul 1AP2-3, 1AO-7Brolatti Giorgio 3BP1-6Bromberg Leslie 2HP1-3Brommer Volker 1EO2-1Bross Alan 2IP2-2Brown F.J. 4JP1-10Brown Thomas G. 3BP1-2Bruzek Christian-Eric 4GP1-3,

1EO2-2Bruzzone Pierluigi 4GP4-1, 2BO-5,

4GP4-2, 2BP1-3, 2HP1-6, 1BP2-6,3HP2-3, 2BP1-5, 5JO-2, 4GP4-4,

4BP1-7, 2BO-7, 4GP4-5, 4GO1-7,4BP2-2

Bräuner Lars 4JP2-8Brédy Philippe 1DP1-1, 1DP1-2, 2DO-6Budesheim Eric 4JP1-12Bulushev Evgeny 3GP1-4Burghart Gerhard 1AP2-5Burgoyne J.W. 4JP1-10Burkert Volker 2AP2-1, 2AP2-4,

2AP2-5Buta Florin 4GO2-2Butrick Craig 3DP1-6Buzio Marco 1AP1-1, 1AP2-2,

3JP1-1, 4KP1-6, 1LP1-10, 4KP1-9Bychkov Alexander 3AP3-6Bykov Victor 3IP3-4

CCaballero Jorge 2BP2-5, 1BO-1, 4BP1-5Cai Jun 1EP4-4, 1EP4-7, 1EP4-8Cai Ying 2HP2-9Calero Jesus 3AP3-7, 3KP1-4Calvi Marco 4KP1-1, 2HP1-6Calzolaio Ciro 2BO-5, 5JO-2Campbell Archie 1CP1-1Canfer Simon 3AP2-4Cao Jiwei 1IO2-3, 2EP5-3,

1HP2-7Cao Quanliang 3DP1-4, 3DP1-5Cao Yun 4AP1-5, 3HP2-9, 4HO1-6Cao Zhicheng 1EO2-5Caplin David 1IO2-6Capuano Carlo 4BP2-4Cardwell David 1CP1-1Casalbuoni Sara 2AP3-1, 4KP1-2Casali Marco 1AP1-7Caspers Fritz 4KP1-9Caspi Shlomo 5JO-4, 4KP2-8, 4AP2-4,2AO-4, 4AP2-5, 3AP2-8, 3KP1-7, 2IP2-5,

2AO-6, 2DP1-8, 4AP2-8, 4AP2-9Castaneda-Miranda Alejandro 2EP6-3

3EP1-4Cau Francesca 4BP1-7, 2CP1-6Cen Yishun 3BP1-3Cercassi Jean-Claude 4BP1-5Cetner Tomasz 2GO1-3, 2GP2-3,

2GP2-5Cha Gueesoo 1IP2-2, 2IP1-5, 3CP1-5Chai Guolin 1DP1-7Chaiyatham Theerawut 1EP5-1Chamritski Vadim 4JP1-9Chan C. C. 3EP2-5Chan Kevin 4GO1-1Chan Wan Kan 1IP1-7Chang C.Y. 3CP1-2Chang Cheng-Hsiang 1AP2-4,

2AP1-3, 4IP1-7, 2AP1-7Chang Ho-Myung 3HP2-2Chang Hyun-Sik 4HO1-3, 4HO1-7Chang Ji-Hong 3IP2-8Chang Ki Sung 3EP3-7Chang-Hun Min 4GP2-3Chappell Steve 1IO2-7Chapuis Lilian 2AP1-8Charon Patrice 1HP2-9Charrier Jean-Paul 2HP1-1,

4KP1-11Chatain Denis 4JP1-8Chau K.T. 1LP1-3, 1LP1-4,

3EP2-5, 4IP2-2, 1LP1-5, 2EP3-3,1LP1-6, 1LP1-7, 2EP3-4, 3EP2-6, 2EP3-5

Chau W. Y. 3JP2-8Chaud Xavier 3JP1-5, 4GP1-3Chavira Elizabeth 4GP1-6Cheggour Najib 4GO2-4, 2GP1-9Chen Anbin 1HP1-6, 1HP2-7Chen Henry 2AP2-4, 2AP2-5Chen I.G. 3CP1-2Chen Jiangbo 1DP1-7, 3IP2-7Chen Jianxin 2EP7-3Chen Jingping 4CP1-1, 2GO2-4,

2CO-6, 4CP1-6Chen June-Rong 4IP1-7Chen Longwei 2HP1-2Chen Panpan 1EP2-3Chen Qingquan 2EP5-3Chen S.D. 3CP1-2Chen Shunzhong 1HP2-3, 2HP1-5,

4IP1-2, 1DP1-5Chen Wan 1AP3-2, 3KP1-6Chen Wenge 4KP2-5, 2CP1-3,

4JP1-7Chen Xin 2EP6-4Chen Yiran 3EP1-5, 2EP6-6,

2EP6-8Chen Yonghua 3HP1-3, 3HP1-5,

3HP1-7, 3HP1-8Chen Ziyu 1HP2-4Cheng D. W. 4AP2-4, 2AO-4, 3AP2-8,

3KP1-7, 3AP2-6, 2AO-6Cheng Junsheng 2FP1-3, 1DP1-5Cheng K.W.E 2EP5-7Cheng Ming 1LP1-6, 3EP2-6,

2EP3-5Cheng Yong 3HP1-3Chi Chengfang 3KP2-5Chida Yutaka 1BO-5Chlachidze G. 4AP1-3, 5JO-4, 4AP2-4,

4GP4-7, 2AO-4, 3AP2-8, 3KP1-7,2AO-6, 4AP2-8, 4AP2-9

Cho Eunha 1AO-5, 4GP1-1, 4BP1-1, 2IP2-1, 4FP1-1, 1IP1-1, 1DP2-3,

1DP1-3, 3IP3-1, 3KP1-2, 2GP1-2, 4JP1-4, 2GP2-4, 2GO2-5, 3EP1-5, 2AP2-6, 1EP1-7, 3JP1-6, 4GP2-3,

2GO1-6, 4GP2-4, 1HP2-8, 1EP1-10, 3GP2-5, 4GO2-4, 4EP1-7, 2EP3-7, 3CP1-9, 2EP2-6, 4EP2-4, 2EP2-8,


1IP2-5, 2IP3-6, 3KP2-10, 3EP1-9, 3BP1-7, 2GP3-11, 3KP2-11, 4BP2-6,

4BP2-8, 2IP2-9, 2BP1-7, 3GP2-7, 4FP1-8, 2BP2-9, 3HP1-9, PT3-1,

PT4-1, PT6-1, PT7-1, 3HP1-10Cho Jeonwook 1EO2-3Cho Kwang-Woon 4HO1-3, 3BP2-6Cho Sung-Min 1EP3-1, 1EP3-2,

1EP3-10Cho Sungmin 1EP3-3Cho Yong-Sun 3EP3-10, 2EP1-6,

1EP5-2, 1EP5-8,1EP5-10, 1EP5-3, 1EP5-4, 3EP1-6

Choi Choi 4IP1-5Choi Heekyung 3GP1-5Choi Hyo-Sang 1EP5-2, 1EP5-8,

1EP5-10, 1EP5-3, 1EP5-4, 3EP1-6,3EP3-10, 2EP1-6

Choi Jae Hyeong 2GP3-12, 2GP3-2,1HP2-11, 2EP2-10

Choi Kyeongdal 2EP6-9, 1EP2-6,2EP1-5

Choi Seyong 4FO-5, 4JP2-1, 2GP2-8, 2IP3-4, 2CO-2

Choi Soo-Geun 1EP5-2, 1EP5-8,1EP5-10, 1EP5-3, 3EP1-6

Choi Sukjin 1FP1-4, 4GP3-6,1FP1-10, 1FP1-11, 3CP1-7, 3CP1-8,

3HP2-8, 3EP3-8, 3CP1-9, 3JP1-8Choi Yeon Suk 3EP1-3, 1HP2-5,

3CP1-5Choi Yong-Woon 2AP3-5Choi Yoon Hyuck 3HP2-6, 1HP2-11,

4GP2-6, 1IP1-9, 4HP1-7, 1IP2-6Chouhan P 4BP2-1Chouhan Shailendra 1AP2-3,

3AP1-5Christian Matthew 4JP1-9Chu Yong 1BP1-10, 3BP2-6,

2BP1-6Chu Yun-Liang 4IP1-7Chung Dong-Chul 1EP5-2, 1EP5-3,

1EP5-4, 3EP3-10, 2EP1-6Chung Hyun-Ju 4IP1-5Chung Yoon Do 4EP3-1, 2EP7-1,

1FP1-3, 1FP1-4, 2HP2-5, 3CP1-7,3CP1-8, 3HP2-8

Ciazynski Daniel 4HO2-4Citadini James 2AP1-2Ciullo Giuseppe 4HP1-5Clarke Jim 1LP1-1, 1AP1-3Cline David 4AP1-4Cloez Herve 4BP1-3, 2BP1-4Coatanea-Gouachet Marc 4HO2-4,

2HP1-4Coleman Richard 1AO-6Collings Edward 2GO2-6, 3CP1-6Collins Brett 5IO-2Collomb Norbert 1LP1-1Contalbrigo Marco 4HP1-5Coombs Tim 4EP2-2, 3EP1-5,

2EP6-6, 2EP6-8Corato Valentina 2BP1-3Cornelis Marc 2BP2-5, 1BO-1, 4BP1-5Couprie Marie-Emmanuelle 2AP1-8Cozzolino John 4AP2-5Crisanti Flavio 3BP2-7, 3BP2-8Croari Giancarlo 2HP1-6, 4BP1-7Crowther G. 4JP1-10Cucchiaro Antonio 3BP2-7,

3BP2-8, 3BP1-6Cui Chunyan 2FP1-2, 4HP1-1,

4DP1-4, 2FP1-3Cui Jian 2DP1-6, 4KP2-9Cui Tao 3AP1-6Cui Yingmin 4GP3-2Cuthbert M. 4JP1-10

DD Raja Sekhar 2IP2-4, 2IP2-7Dabio Masanori 1IP2-4Daguerre Jean-Pierre 2AP1-8Dahlerup-Petersen Knud 5JO-3, 4KP2-7Dai Shaotao 1EO2-5, 1EO1-2,

1EO2-6, 1EP2-5Dai Yinming 1DP2-1, 1HP2-3,1DP1-4, 4IP1-2, 2FP1-3, 1DP1-5, 3IP2-10Dalban-Canassy Matthieu 1IO2-8,

2HP1-8Dalder Edward 2BO-4Dalin Jean-Michel 1BO-6Daniel Gajda 2GP2-4Daniel-Thomas Philippe 1HP2-9Davis Sam 3BP1-5, 3IP3-7de Gersem Herbert 4JP1-5de Rapper Willem Michiel 4GO2-8de Rijk Gijs 3AP2-3, 4AO-2, 4KP2-8,

3AP2-4, 3AP2-5, 2AO-5Debray François 4CP1-2, 2CO-4,

4GP1-3, 2CP1-5, 4JP1-11,4CP1-8, 4JP2-2

Dechambre Thierry 2GP1-6Dechoux Nathalie 1EO2-2Decool Patrick 2BP1-3

4BP1-3, 2BP1-4, 4BP2-7Dedicatoria Marlon J. 3GP2-3Defeijter Jacob 1AP2-4, 4JP1-9Dehez Bruno 4IP1-1Deiters Konrad 4AO-7Dekamp Jon 1AP2-3Della Corte Antonio 4GP4-4, 3BP2-

7, 3BP2-8, 2GP1-7, 3BP1-6, 2CP1-7

Demello Allan 4HO1-6Demikhov Evgeny 2DO-2, 4JP1-3Demikhov Timofey 2DO-2, 4JP1-3den Ouden Andries 4CP1-4,

4GP4-4Deng Changdong 1AP3-2, 4KP1-7,

3KP1-3Deng Huijun 2EP6-10Deng Z. Q 1EP4-4, 1EP4-7Deng Zigang 2FP1-4Deniau Laurent 4KP1-6Deront Laurent 1AP2-5, 4KP2-12Devaux-Bruchon Mélanie 4JP2-2,

1EP2-4, 3AP2-3Devred Arnaud 2BP1-3, 3IP3-3,

1GP1-7, 3HP1-3, 3BP2-4, 4GO1-7,4GP3-5, 3HP1-6, 4GO2-6, 4BP2-4,

1BO-2, 3HP1-7, 3HP1-8, 2BO-1,1HP1-9, 4GO1-1, 3HP1-10

Dhalle Marc 2IP2-5di Michiel Marco 1GP2-5di Zenobio Aldo 4GP4-4, 3BP2-7,

3BP2-8, 2GP1-7, 2CP1-7Diduszko Ryszard 2GP2-5, 2GO1-3Dietderich D. 2GO2-6, 5IO-2, 4AP2-4,

2AO-4, 3AP2-8, 3KP1-7, 3AP2-6,2AO-6, 2HP1-10, 4AP2-8

Dietrich Marc 4HO1-1Dimarco E. Joseph 2AP3-4, 5JO-4,

3KP1-7

Ding Hongfa 2HP2-3, 2HP2-8,2HP2-1, 2HP2-4

Ding Kaizhong 2EP5-7, 3HP1-1,2GP3-6, 3HP1-3, 3HP1-4,

3HP1-6, 3HP1-10Ding Pengcheng 3KP2-8, 2HP2-10Ding Tonghai 2HP2-1, 2HP2-3,

2HP2-4Ding Yonghua 3BP1-3Dinh Minh Chau 2EP2-7Disset Gaël 2AP2-8Dixon Iain 4KP2-2, 2CP1-7,

2CO-6Do-Jun Youm 4GP2-3Doi Takahiko 1FP1-2Dolgetta Nello 2BP2-3, 3HP1-5,

3HP1-7, 3HP1-8Donati André 2DO-6, 2AP2-8Doose Chuck 2AP3-3Dormicchi Oriano 2AP2-2Doser Michael 1AP2-5Doshi K 4BP2-1Dou Dou 1BO-2Dou Jianzhong 3EP1-2Dou S. X. 2GP2-8Douine Bruno 3GP3-7, 4KP1-3Drotziger Sandra 4HO1-8Du C.H. 3CP1-2Du Ho-Ik 4EP1-8, 4EP1-6, 4EP1-7Du Junjie 3AP3-5Du Shejun 2GP1-3Du Shuangsong 3BP2-1, 4BP1-4,

2GO2-8Du Xiaoji 4DP1-7Du Yi 1LP1-6Duan Xianzhong 2HP2-4, 2HP2-8Dubois Jean-Baptiste 2GO2-3,

3GP1-2Dubois Olivier 2HP1-1, 2DO-6,

4KP1-11Duchateau Jean-Luc 1IO1-6,1IO1-3, 4HO2-4, 3BP2-2, 2HP1-4, 1IO1-2

Dudarev Alexey 1AP2-5, 4KP2-12Duglue Daniel 3BP1-5, 3IP3-7Dumas Jean 4CP1-2, 4CP1-8Durand Gilles-André 2HP1-1Durante Maria 2AO-3, 3AP2-3Durville Damien 1IO1-5Dutoit Bertrand 1EO1-3

EEbisawa Noboru 4BP2-2Eckert Daniel 4GP1-5, 2CO-1Egawa Kazumi 1AP1-2Egawa Masayasu 2IP3-7Eggenberger Roger 1GP2-5Egorov Sergey 3IP1-1Ehmler Hartmut 4KP2-2Eichenberger Ali 3JP1-1Eisterer Michael 3GP2-2, 1GP3-5Elajjouri Tarik 2AP1-8Elefant Felix 2EP7-4Elhaut Thibault 4IP1-1Ellwood George 3AP2-4Emhofer Johann 3GP2-2Escallier John 1AP2-6, 5JO-4, 4FO-6Espinosa-Loza Francisco J. 3EP1-4,

2EP6-3Evans David 4BP1-6Evbota Daniel 4AP1-3, 1AO-6,

4GP4-7, 4AP1-6


Eyub Yildiz 4CP1-7Ezio Todesco 2IP1-1, 5IO-3, 3AP2-5,

2AO-5, 4AO-1

FF. Dalpiaz Paola 4HP1-5Fabbricatore Pasquale 5IO-5, 1AO-1,

2DP1-7Faict-Bastin Sandrine 4KP1-11Fan Ying 1LP1-6Farek Jaromir 3IP3-3Farinon Stefania 2DP1-7, 1AO-1Fazilleau Philippe 4GO2-7, 2CP1-5,

3KP2-6, 1HP2-9Fedorchenko Vladimir 3KP1-2Fee Mike 1AP2-4Felder Roland 2HP1-6Felice Helene 5JO-4, 4KP2-8, 4AP2-4, 2AO-4, 4AP2-5, 3AP2-8, 3KP1-7, 3AP2-6,

2IP2-5, 2AO-6, 4AP2-8, 4AP2-9Fellinger Joris 3IP3-4Feng Hansheng 3HP1-1, 3HP1-6Feng Yaojing 1EP4-1, 1LP1-13,

1LP1-9Feng Yong 2GP1-3Fernandez Cano Elena 2BP2-5,

4BP1-7Fernando Toral 3AP3-7, 3KP1-4Ferracin Paolo 5IO-2, 5JO-4, 4KP2-8, 4AP2-4, 2AO-4, 3AP2-8, 3KP1-7, 3AP2-6,

2IP2-5, 2AO-6, 4AP2-8, 4AP2-9Ferreira Alexandre 1GP1-4Fersini Maurizio 2BP2-5Fessia Paolo 2GO2-1, 5IO-8,

4GP4-6, 2AO-3Fetisov Sergey 4JP1-1Feuvrier Jerome 4KP2-8Field Michael 4GO1-3Fietz Walter 4HO1-8, 1BP1-2,

1BP1-4, 4HO2-5Figini Albisetti Alessandro 4FO-5, 2GP2-9Filhol Jean-Marc 2AP1-8Filla B. 2GP1-9Fillunger Harald 2GP3-1Fink Stefan 1BP1-4, 4HO2-5,

1BP1-6, 1BP1-2Fischer Egbert 1AP3-7Fischer Wolfram 3IP2-6Flanagan Gene 4AP1-1, 4HP1-8Floch Eric 3AP3-7Flükiger René 1GP3-5,

1GP1-4, 4GO2-2, 2GP2-2Foffano Giuseppe 1AP3-8Forest Frederick 1AO-7, 2IP1-8Forgeas Adrien 4HO1-3, 4HO1-7Formenti Fabio 5JO-3, 4KP2-7Formisano Alessandro 1BP1-7,

1BP1-9Foster T. 4JP1-10Foussat Arnaud 2BP2-3, 3BP2-1,

4BP1-4, 2GO2-8, 4HP1-4, 3HP1-10Fowler Mike 1AP2-3Fowler Tony 2DP1-2Franchello Ermano 4BP1-5Freudenberg Kevin 2BO-4Friedman Alex 2EP4-3Frings Paul 2CO-4Fu Youkun 3KP2-5Fuchino Shuichiro 1HP2-2, 4JP1-2Fuerst Joel 2AP3-3Fujihira Junichi 4JP1-2

Fujihira Seiichi 4JP1-2Fujimori Atsushi 4JP1-2Fujino Koso 4FO-4Fujishiro Hiroyuki 3JP1-2, 4FP1-2Fujita Shinji 1IP2-4Fukuda Tatsuhiko 1IP1-3Fukui Mananori 2EP6-2Fukui Satoshi 1IP2-1, 1LP1-2, 2IP3-2,

2IP3-7, 1IP2-5, 2IP3-6Fukumoto Yusuke 2EP2-9Füllenbach Frank 4HP1-2, 3BP1-2Funaki Kazuo 1DP2-8Furuse Mitsuho 1HP2-2, 4JP1-2

GG P Vishnuvardhan 2IP2-10G. Pedersen Christian 4JP2-8Gabard Alexander 4AO-7, 4AO-3Gaertner Willi 2CP1-6Gajda Daniel 2GO1-3, 2GP2-3,

2GP2-5Galbraith Peter 3KP1-5Gallix Remy 4HP1-4, 3KP2-5, 2BO-2Gallo Giuseppe 3IP3-10Galvan Stefano 1BO-1, 4BP1-5Gandioli Camille 4EP1-4Ganetis George 4AP1-4Ganter Romain 4AO-3Gao Fei 2FP1-1, 2FP1-3Gao Huixian 2GP1-3Gao Qingsheng 4KP2-6Gao Shuang 3EP2-5, 2EP3-4Gao Xingyu 4JP1-9Gao Zhiyuan 1EO2-5, 1EO1-2,

1EO2-6Gapionok Elena 2IP1-4Garcia Perez Juan 4KP1-9, 3KP1-5GarcíA Valentin 4GP1-6GarcíA-TabaréS Luis 3AP3-7,

2EP6-7, 3KP1-4Gardner Mark 4BP2-4Gärtner Willi 4BP2-7Gastineau Bernard 3KP2-6,

1HP2-9, 2AP2-8Gauthier Florent 3BP2-1Gavrilin Andrey 2CO-8Gehring Rainer 2AP2-2Genini Laurent 1HP1-1Geraskin Evgeny 1AO-2, 1HP1-3Gerstl Stefan 2AP3-1, 4KP1-2Gheller Jean-Marc 2GP1-6Ghosh Anup 1AP2-6, 4AP2-4, 2AO-4,

4FO-6, 3AP2-8, 2AO-6, 4AP2-9Gibier Dominique 2HP1-1Gibson Simon 4JP1-9Gil Woosik 2AP2-2Gilgrass Graham 2DO-6, 2GP1-6Giloux Christian 4KP2-8Ginola Marianna 4BP1-5Giunchi Giovanni 4FO-5, 2FP1-5, 2GP2-9Godeke Arno 5IO-2, 3AP2-6Godon Pascal 2AP2-8Goldacker Wilfried 2GO1-4Golluccio Giancarlo 1LP1-10,

4KP1-9, 3KP1-5Gomes de Faria Jose Manuel 1AP3-8Gömöry Fedor 2IP3-1Gonzalez Jose Gonzalo 4GP1-6Gonzalez-Parada Adrian 3EP1-4,

2EP6-3González Jorge Rafael 2EP6-7

Good Jeremy 3CP1-4Goodrich Loren 3GP2-5, 2GP1-9Gornikel Ilya 1HP1-8Gosho Yoshihiro 2EP1-1Goto Takayuki 1IP2-1, 1HP2-1Gou Xiaofan 3GP3-6Gou Xinglong 2HP1-10, 4AP1-5Gournay Jean-François 2HP1-1Gradt Thomas 2GO2-2Graffin Patrick 3KP2-6, 1HP2-9Granados-Garcia Xavier 2EP6-3Grandclement Cedric 4CP1-7Granieri Pier Paolo 2GO2-7,

1AP1-7Grau Andreas 2AP3-1, 4KP1-2Green Michael 2HP1-10, 2HP1-11,

3AP1-5, 4AP2-7Gribov Yuri 2IP1-7Gros Gilles 4BP1-3Guan Mingzhi 4KP2-4Gubkin Igor 2GP1-8Guinchard M. 2AP2-9, 3AP2-4Guirao Julio 2BP2-5Guirao Ángel 3KP1-4Gung Chen-Yu 3IP3-3, 2GP3-6,

3HP1-3, 2BP2-6, 3HP1-5, 3HP1-6,3HP1-7, 3HP1-8, 1HP1-9, 3HP1-9

Guo Ning 3JP2-1, 3JP2-7Guo Wenyong 1EO1-2, 1EO2-6,

1EP2-5Guo Yunzheng 1EP2-1Guo Zhihai 4IP2-7Gupta P. 4BP2-1Gupta Ramesh 4AP1-4, 3IP2-6Gurov Denise 4AP2-3Gutierrez Jose Luis 3KP1-4

HH. L. Yang 1HP1-10, 2BP2-7,

2IP2-3Ha D.W. 4GP2-3Ha Hongsoo 4GP2-3, 3GP2-6Ha Kyoung-Hun 1EP5-2, 1EP5-8,

1EP5-10, 1EP5-3, 3EP1-6Häßler Wolfgang 2GO1-1Hachama Mohammed 2EP5-2,

2EP5-4Hachisuka Daigo 1HP2-1Hafalia Ray 4AP2-4, 2AO-4, 3AP2-8, 3KP1-7, 3AP2-6, 2AO-6, 2DP1-8, 4AP2-8

Hagelstein Michael 4KP1-2, 2AP3-1

Hagen Per 2IP1-1Hahn Seungyong 1DP2-4, 1DP1-6,

3CP1-5, 1IP2-6, 1IP2-7,1DP2-5, 1DP2-6, 2DO-8, 3JP1-8

Hahn Songyop 2EP6-9, 1EP2-6,2EP1-5

Hajnal Nandor 3BP1-5, 3IP3-7Hamada Kazuya 2BO-4, 1BO-8, 2BO-7,

4BP2-2, 4GO1-1, 4BP2-8Hamaguchi Shinji 2BP1-2Hamajima Takataro 1BP2-2,

3EP2-3, 3EP2-4, 1BP2-3,3EP1-10, 1BP2-7

Han Byoung-Sung 4EP1-8,4EP1-6, 4EP1-7

Han Ke 2GO2-4, 4FO-7Han Muho 1EO1-4Han Sang-Chol 4EP1-6, 3EP2-9Han Shaofei 4KP1-10, 4KP2-10


Han Shilei 3KP2-5Han Shiqiang 4BP1-4, 2GO2-8Han Tae-Hee 4EP1-6Han Xiaotao 1CP1-2, 3DP1-4,

3DP1-5, 3GP3-3, 2HP2-9, 3KP2-8Han Xiaotao 2HP2-10Han Youngjae 1FP1-4Han Zhengnan 2EP5-3, 1IO2-3Hanai Satoshi 2CP1-1, 3CP1-1Hansheng Feng 3HP1-4Hao Changduan 3BP1-3Hao Huanfeng 2DP1-1Hao Xiaocong 4IP1-10, 4IP2-6Haraguchi Masashi 1IP2-4Harding David 3GP1-4Harjo Stefanus 4GP4-3, 1GP3-3,

1GP1-6, 2BO-7Harrison Robert 2BP2-5, 1BO-1, 4BP1-5,

3IP3-6, 4BP1-9Hasegawa Mitsuru 4BP1-1,

1BP1-3Hashizume Hidetoshi 1BP2-5Hasse Quentin 2AP3-3Havens Tim 2DO-4Hayashi Hidemi 2EP1-1Hayashi Kazuhiko 4FO-4Hayashi Naoki 2HP2-6, 2HP2-12Hayashi Seiji 4GO1-6Hayashi Shingo 3FP1-5Hayashi Toshihiro 4FO-4Hays Steven 1AP3-4Hazelton Drew 2CO-3He Yan 3BP1-3Heiduk Mathias 3KP2-2Heikinnen Samuli 4BP1-5, 2BP2-5Heitzenroeder Phil 3BP1-7Heller Reinhard 4HO1-8, 1BO-3,

1BP1-4, 3HP2-4Hellstrom Eric 2GO1-2, 1IO2-8Hemmi Tsutomu 1BO-8, 4GP4-3,

1GP3-3, 1BO-5, 2BO-7, 4BP1-8, 4BP2-2Herlach Fritz 3KP2-1, 1CP1-3Herrmann Marco 2GO1-1Herrmannsdoerfer Thomas 2CO-7Hertout Patrick 3BP2-2Hervieu Bertrand 4GO2-7, 2CP1-5,

3KP2-6, 4DP1-8Heyn Katrin 4BP2-7Hidaka Hikaru 1IP2-4Higashi Norio 1AP1-5Higashikawa Kohei 4HP1-6Higley Hugh 2HP1-10Hilton David 4GP2-2, 1IO2-8, 1IO2-1Hirano Naoki 2HP1-9, 4HO1-4Hirayama Tadashi 4KP2-11Hiroaki Watanabe 4AP2-1Hirose Erina 4AP2-1, 4AP2-2, 1AO-4Hirose Ryoichi 3BP1-4Hirota Noriyuki 3JP2-3Ho Sin Lan 4IP3-4, 3JP2-5, 4IP3-5, 4IP2-4, 4IP3-1, 4IP3-6, 4IP3-7, 1EP4-2,

1LP1-8, 4IP3-2, 3DP1-3, 2EP6-10,1EP2-7, 4FP1-7, 3JP2-8

Hoa Christine 4HO1-7Hoang Gia Ky 2GP1-3Hoang The-Cuong 4KP1-3Hobl Achim 1EO1-3Hocine Abdelfettah 2EP5-2,

2EP5-4Holdener Fridolin 3HP2-3Holubeck Tomas 2AP3-1, 4KP1-2Holzapfel Bernhard 2GO1-1

Hong Bong Hwan 3IP3-1, 2DP1-3,2DP1-5

Hong Seung 4GO1-3Hong Zhiyong 1EO1-7Honzawa Ryuta 3GP3-2, 3GP2-1Horvatic Mladen 4CP1-2Hoshino Ken 3EP1-10Hossain Md Shahriar Al 2GP2-2Hou Binglin 3KP2-5Hou Ying 4GP1-7Hou Zhilong 4DP1-7, 3FP1-3Hourican Michael 1AP1-4Hsu Chia-Hao 3JP1-6Hu Geli 1DP2-1, 1DP2-2Hu Jihui 2HP2-4Hu Liangbing 1HP1-4Hu Lili 1DP2-7Hu Nannan 3EP1-10Hu Qiming 3BP1-3Hu Xinning 2FP1-2, 2FP1-3Hu Yanlan 4HO1-2, 4HO2-6Huang Cheng-Wei 2AP1-3Huang D. J. 2AP1-3Huang Jui-Che 4IP1-7, 2AP1-6Huang Lantao 3GP3-3Huang M. H. 2AP1-3Huang Taotao 4JP1-9Huang Xiaohua 2EP3-6Huang Xiongyi 3HP1-1, 2GP3-6,

3HP1-3, 3HP1-4, 3HP1-6Huang Yibing 4GO1-3Huh Jaesun 1EP3-3Humer Karl 2GP3-1Hunte Frank 3GP3-5, 4HP1-8,

1IO2-2Hur Kyeon 1EO1-1, 1EP3-6,

3EP2-10, 1EP1-11Husband Mark 1EO1-6Hussung Robert 2BO-4Hwang Ching-Shiang 4KP2-1,

3CP1-2, 1AP2-4, 2AP1-3,4IP1-7, 2AP1-6, 2AP1-7

Hwang Chulsang 4EP2-6Hwang Jae-Sang 4EP3-6, 4EP3-7Hwang Si-Dole 1EP1-5Hwang Young Jin 3GP2-4, 4GP3-6,

1FP1-10, 1FP1-11, 3CP1-7, 2IP2-6,3CP1-8, 1EO1-1, 3HP2-8,3EP3-8, 3CP1-9, 1FP1-4

Hyun Ok-Bae 1EP5-5, 3EP3-9, 4EP3-2

Hyunjung Lee 1HP1-10, 2IP2-3

IIedemska Ievgeniia 3GP1-4Ieiri Masaharu 4AP2-1, 4AP2-2, 1AO-4Igarashi Hajime 1IP1-2, 1IP1-8Iguchi Masahide 1BO-5, 4BP2-2, 4BP2-6Iida Y 3GP2-1Iijima Yasuhiro 1IP2-4Iijima Yasuo 1GP3-1Iinuma Hiromi 4AP1-2Iio Masami 4AP2-2Ikebe Yumiko 4GP2-5, 4GP2-7Ikeuchi Masamitsu 1HP2-2Ikuno Soichiro 4IP2-3Ilin Yuri 2BP2-2, 3HP1-5

3IP3-3, 2BP2-6, 3HP1-7Imagawa Shinsaku 2BP1-2,

4HO2-3Ino Takashi 2AP2-3

Inoue Itaru 2CP1-1, 4GP1-7Inoue Masayoshi 4HP1-6Inoue Takuro 2GP2-7Ioki Kimihiro 2IP1-4Ipatov Yu. P. 4JP1-1, 2GP1-10Ipatov Yuri 1BO-7Irie Yoshiro 2HP2-6, 2HP2-12Ishibashi Tatsuji 1GP2-1, 1BO-8Ishida Keiichi 2AP3-5Ishihara Atsushi 3JP1-9, 2EP2-9Ishii Kenzi 1GP2-1Ishikawa Norihiko 1FP1-1Ishiyama Atsushi 2EP6-5, 1EP1-6,

2HP1-9, 4EP1-5, 1EP1-10Isobe Takanori 2HP2-11Isono Takaaki 1GP2-1, 1BO-8, 2BO-7,

4BP2-2, 4GO1-1Iten Eduard 3HP2-3Ito Kazuyuki 2HP2-11Ito Satoshi 1BP2-5Itoh Takayoshi 2BO-7, 4GP4-3,

1GP3-3Itoh Yoshitaka 1LP1-2, 2EP6-2Iturbe Rafael 2EP6-7Ivanov Denis 1BP1-6Ivanyushenkov Yury 2AP3-3Ivkin Vladimir 3KP1-1Iwakuma Masataka 2EP1-1,

2EP6-5Iwamoto Akifumi 4HO1-7Iwasa Yukikazu 1DP2-4, 1DP2-5,

1DP2-6, 2DO-8, 1DP1-6Iwasaki Masako 1AP1-5Iwasaki Tatsuya 3EP2-4Iwashita Yoshihisa 2AP2-3, 1AP2-7Izumi Teruo 2EP6-5Izumi Yoshinobu 2GP3-9

JJadeja S. J. 4BP2-1Jalali Jalal 3DP1-6Jan Jyh-Chyuan 4KP2-1, 3CP1-2,

1AP2-4, 4IP1-7, 2AP1-7Jang Gilsoo 3EP2-9, 1EP5-6,

3EP1-7Jang Hyun-Man 1EP1-5, 1EO2-3Jang Jae Young 1FP1-3, 1FP1-4, 1IP1-5,

2EP4-6, 1FP1-10, 1FP1-11, 3CP1-7,2IP2-6, 1EO1-1, 3EP3-8, 1EP3-6

Janowski Tadeusz 2EP1-2, 2EP1-7,2EP4-4

Janssens Ewald 4JP1-5Jaroszynski Jan 4GP2-2, 2CO-8Jeandey Christian 4JP1-8Jeong Geun-Young 2EP7-6, 3IP3-9Jeong Hwanjun 2GP3-11Jeong Sangkwon 1HP1-2Jeung Giwoo 4IP1-5Jewell Matthew 1BO-2, 2BO-4, 2BP1-5,

5JO-2, 1GP1-7, 4GO1-7, 1GP1-9, 4GP3-5, 3GP1-7, 4GO2-6, 4GO1-1

Ji Zhenshan 2HP1-2Jiang Chengxi 2HP2-4Jiang Donghui 1FP1-12, 2FP1-4Jiang Huawei 4GP3-4Jiang J.Z. 1LP1-7Jiang Jianyi 2GO1-2, 1IO2-8Jiang Jing 4IP1-3Jiang Longzhi 2DO-4Jiang Pan Wan 2GP3-5, 2GO2-8,

2GP3-7, 1BP1-6


Jiang Xiaohua 1DP1-7, 3IP2-7, 1DP1-8Jiang Yudong 4EP2-8Jiang Zhenan 1IO2-6Jiao Fengshun 1EP1-1, 3EP1-2Jimenez Carmen 1EO2-2Jin Xinzhe 4GP4-3, 1GP3-3, 4AO-6Jin Zhijian 1EO1-7Jo Hyun Chul 1FP1-3, 1FP1-4, 4IP2-5,

3CP1-7, 3CP1-8, 1EO1-1,3HP2-8, 3CP1-9, 3JP1-8,

1FP1-10, 1FP1-11Jo Jung Min 1FP1-4Johnson Rolland 4AP1-1, 4HP1-8Jones Harry 1CP1-1Jong Cornelis 2BO-4, 3BP2-1, 3IP3-6,

2BP2-9Joo Jae-Joon 4HO1-3Joo Jin-Hong 1IP1-1, 4FP1-3Joseph J. 2AO-4, 3AP2-8,

3KP1-7, 2AO-6Joshi Piyush 4AP1-4Joss Walter 4HP1-3, 4GO2-7,

2CP1-5José Manuel Cela 3KP1-4Ju Chang-Hyeon 2EP2-6Juang Tiki 2AP2-4, 2AP2-5Jung Alexandra 3GP1-7Jung B. I. 3EP3-10, 2EP1-6Jung Byung-Ik 1EP5-2, 1EP5-8,

1EP5-10, 1EP5-3, 1EP5-4, 3EP1-6Jung Changho 1EP5-6, 3EP1-7Jung In Su 2DP1-3, 2DP1-5Juster François-Paul 1HP1-1,

2DO-6, 2GP1-6

KKadono Toshiharu 4JP1-2Kajbafvala Amir 3GP3-5Kajikawa Kazuhiro 2GP2-7, 1DP2-8,

1EP4-6Kalinin Vladimir 4HO1-3, 1HP1-8Kametani Fumitake 2GO1-2Kameyama Soichiro 1FP1-2Kamijo Hiroki 1FP1-2Kamikado Takeshi 3BP1-4Kamitani Atsushi 3JP1-3, 4IP2-3Kamiya Koji 1BO-3Kamiya Yoshio 2AP2-3Kamiya Yuji 1EP1-7Kanazawa Masaya 2GP2-7Kaneko Takeshi 1IP1-1Kanemitsu Masaya 4EP1-5Kang Byung-Kwan 2EP3-1, 3EP2-1Kang Hyoungku 4EP3-1, 4EP3-5,

2EP7-1, 4EP1-3, 3EP3-11Kang Joonsun 2DP1-3, 2DP1-5Kang Kun Uk 2DP1-5, 2DP1-3Kang Myunghun 1IP2-2, 2IP1-5Kang Sung Chan 3GP1-5Kang Wen 1AP3-2, 4KP1-7,

3KP1-3, 2IP1-9Kanithi Hem 3GP1-6, 2GP1-6Kar Soumen 4EP1-1Karasev Yuriy 2GP1-8Karpov Sergey 2HP2-2Kasa Matt 2AP3-3Kashikhin Vadim 4AP1-3, 1AO-6, 5JO-4,

4AP2-4, 3AP2-5, 4AP2-8Kashikhin Vladimir 3AP3-2,3GP1-4, 2IP2-2, 4AP1-3, 4JP2-4, 4GP4-7

Kashtanov Evgeniy 3AP3-1,

1AP3-1Kashy David 2AP2-1, 2AP2-4,

2AP2-5Kasuga Eisuke 2IP3-2Kato Takeshi 4FO-4Katoh Kazuo 4AP2-2, 1AO-4Katoh Yohji 4AP2-1, 4AP2-2, 1AO-4Katsumi Ohata 4GO1-5Kaverin Denis 1BO-7Kawabata Shuma 4KP2-11Kawada Tomoya 4AP2-2Kawaguchi Teppei 4HP1-6Kawamoto Ryusuke 4FP1-3Kawamoto Takashi 1AP1-2Kawanishi Yusaku 2EP6-2Kawano Katsumi 1BO-8, 4BP2-2Kawasaki Nobutaka 1LP1-2Kedia Sunil 4GP1-2Keilin Victor 3HP2-1Kenfaui Driss 3JP1-5Kenji Tasaki 4JP2-7Kerby James 3AP3-2Khavin Naum 4AP2-3Khene Samir 4GP1-1Khodak Andrei 1BP1-8Khodzhibagiyan Hamlet 3AP3-6Khristi Y 4BP2-1, 4GP1-2, 1IO1-2Khvostenko Peter 1BP1-6Ki-Chul Seong 3EP1-1Kii Toshiteru 2AP3-5Kikuchi Akihiro 1GP3-1, 1GP3-2,

4AO-6, 4GP4-3, 1GP3-3, 3AP2-1Kim Chang-Wook 3IP3-9Kim Chul Han 1EO2-4, 2EP2-5Kim D.L 3EP1-3, 1HP2-5, 3CP1-5Kim Daewook 2HP2-5Kim Dong-Hun 4IP1-5Kim Gyeong-Hun 3IP2-2, 4EP2-4, 4EP2-6Kim H. K 2BP2-7Kim H. T 2BP2-7Kim Haejong 2GP3-2Kim Hee Jin 3EP2-10, 1EP1-11Kim Hee-Sun 4EP3-2, 1EP5-5,

1HP2-8, 3EP3-9Kim Ho Min 2EP5-8Kim Hong-Joon 3IP2-8Kim Hosup 4GP2-3, 3GP2-6Kim Hye-Rim 3HP2-2, 1HP2-8,

3EP3-9, 4EP3-2, 1EP5-5Kim Hyunyong 2DP1-5, 2DP1-3Kim In-Ho 3IP3-9Kim J. H. 2GP2-8Kim Jae-Chul 1EP3-1, 1EP3-2,

EP3-3, 1EP3-10, 1EP3-7, 1EP3-8, EP5-7, 1EP5-9, 1EP3-9

Kim Jae-Ho 1EO2-4, 2EP2-5,2HP1-8

Kim Jin Sub 3HP2-8Kim Jin-Geun 2EP2-6, 2EP2-8Kim Jin-Tae 3GP2-4Kim Jinseck 1EP3-8, 1EP5-7,

1EP5-9, 1EP3-9Kim Jun Young 3GP1-5Kim Kabyong 1EP5-6Kim Keeman 3GP1-5, 4GP4-5,

4GO1-7, 4GO1-1Kim Ki-Hyun 3GP2-3Kim Kwang Lok 1IP1-4, 1HP2-10,1IP1-5, 1HP2-11, 1IP1-6, 1IP2-7, 2EP2-10Kim Kwang-Min 3IP2-2, 1DP2-6,

4EP2-4, 4EP2-6Kim Myong-Hyon 1EP3-8

Kim Myung Su 3CP1-5Kim Namwon 3IP2-2, 3HP2-6, 4EP2-6Kim Sang Hyun 1HP2-11, 2GP3-12,

2EP2-10, 1IP1-6Kim Sanghyun 2GP3-2Kim Seokbeom 1IP1-1, 1DP2-3, 4FP1-3Kim Seokho 1EO2-3, 3IP2-2,

2EP2-6, 4EP2-4, 4EP2-6, 2GP3-11, 3GP2-6

Kim Seung-Tak 2EP3-1, 3EP2-1Kim Soo In 4GP2-6Kim Suk 2AP3-3Kim Sung-Kyu 2EP2-6Kim Sungrae 1EO2-3Kim Tae-Won 4EP2-4Kim Won-Sik 3IP3-9Kim Woo Jin 1IP1-6, 2GP3-12,

2EP2-10Kim Woo-Seok 1EP5-5, 1EP2-6,

2EP1-5, 3EP3-9, 4EP3-2Kim Yeong Seok 2EP2-10Kim Yeong-Ok 1BP1-10, 3BP2-6,

2BP2-7, 2BP1-6Kim Yong-Jin 4EP1-7Kim Young Jae 3EP3-8Kim Young-Geun 3EP3-9Kim Young-Gyun 3HP2-8

3HP2-6, 3GP2-4, 4GP2-6, 1IP1-9, 1IP2-7

Kim Youngkwon 1HP1-2Kim Youngmin 1IP2-2, 2IP1-5Kim Yujong 4AO-3Kim Yungil 2EP1-5, 2EP6-9Kimura Naoki 2AP3-5Kimura Nobuhiro 4AP1-2King C. 4JP1-10Kinjo Ryota 2AP3-5Kinsho Michikazu 2HP2-12Kirby Glyn 2AO-3, 1AP3-8Kirk Harold 4AP1-4Kishio Kohji 3JP1-9Kiss Takanobu 4HP1-6Kisslinger Johann 3BP1-2Kisu Takanobu 2EP6-5Kitaguchi Hitoshi 2GO1-5Kitaguchi Masaaki 2AP2-3Kitano Hiroki 2EP6-2Kiyoshi Tsukasa 2CP1-1, 4FO-5,

1DP1-3, 4JP2-1, 3GP3-1, 2CO-2, 2GP2-8, 2DO-1, 4CP1-3

Kizu Kaname 4BP1-1, 2BP1-2, 1BO-3, 1BP1-3

Kleinfeller Jonny 2AP2-2Klimchenko Yury 3KP1-1Knaster Juan-Ramon 2GP3-1,

4BP1-6, 5JO-5, 4KP1-6, 4HP1-4, 3IP3-6, 2BO-2, 1BP1-7

Ko R.K. 4GP2-3Ko Tae Kuk 4EP3-1, 4EP3-5,

2EP7-1, 1FP1-3, 1FP1-4, 2HP2-5, 4EP1-3, 3GP2-4, 1IP1-5, 3EP3-7,

4IP2-5, 2EP4-6, 4GP3-6, 1FP1-10, 1FP1-11, 3CP1-7, 2IP2-6, 3CP1-8,

1EO1-1, 3HP2-8, 3EP3-8, 3EP3-11, 3CP1-9, 3JP1-8, 1EP3-6,

3EP2-10, 1EP1-11Kobayashi Shinichi 2EP4-7Kobela Thomas 2AP1-1Koettig Torsten 4KP2-9, 4FO-3Koh Deuk Yong 1HP2-10Koide Tsuneharu 4JP1-2Koizumi Norikiyo 1BP2-2, 1BO-8, 1BP2-3,


1BO-5, 2BO-7, 4BP1-8, 4BP2-2Kojima Kentaro 4EP1-5, 1EP1-10Kokkinos Charilaos 2AP2-9,

3AP2-4Kolbasov Boris 1BP1-6Kolokolnikov Yuri 4AP2-3Kolonko James 4AP1-4Kominato Yasuaki 1IP1-3Kondratowicz-Kucewicz Beata 2EP1-2,

2EP4-4Kopera Lubomir 2GP2-1Köppen Matthias 3BP1-2Kosmider Andreas 2AP2-2Kostrov Evgeny 2DO-2, 4JP1-3Kovac Pavol 2GP2-1Kovach Paul 3IP2-6, 4AP2-5Kovalenko Alexander 3AP3-6Koyanagi Kei 5JO-7, 4JP2-7Kozak Janusz 2EP1-2, 2EP4-4Kozak SlAwomir 2EP1-2, 2EP4-4Kozlov Oleg 3AP3-6Kozub Sergey 3AP3-1, 1AP3-1,

3KP1-2Krämer Steffen 4HP1-3, 4CP1-2Kramer Thomas 2DP1-2Kravtsov Dmitry 4GO1-1Krishnan Jyothi 5IO-2Krooshoop H.J.G. 4GO1-2Ku Myunghwan 2IP1-5, 3CP1-5Kuang Guangli 2CO-5, 2CP1-4Kubozono Takayoshi 4FO-2Kulkarni Sandeep 4EP1-1Kumakura Hiroaki 2GP2-7Kume Tatsuya 4AP1-2Kundu Ananya 4GP1-2Kuno Kazuo 4BP1-1Kuo C.Y. 4KP2-1Kuo Cheng-Ying 2AP1-3, 4IP1-7Kurahashi Hidefumi 4GO1-6Kurihara Kenichi 1BO-3, 4BP1-1Kurusu Tsutomu 3KP1-8, 4JP2-7Kustom Robert 2AP3-3Kuznetsov Grigory 3AP3-6Kvitkovic Jozef 5JO-8Kwon Oh Jun 1HP2-10, 3HP2-6,

1IP1-9, 1IP2-7Kwon Soun Pil 3GP1-5, 4GP4-5Kwon Young Kil 2EP5-8

LLabbé Thibaut 4IP1-1Lackner Friedrich 2GO2-1, 5IO-8Lacroix Benoit 1IO1-6, 4HO2-4,

3BP2-2, 2HP1-4Lai Xiaokang 2EP3-6Lajewski James 3GP1-6Lamaison Valerie 3BP2-2Lamas Jérika 3EP1-8, 2EP4-5Lamm Mike 5IO-7, 4AP1-3, 1AO-6,

5JO-4, 4GP4-7, 4AP2-5, 4AP2-8, 4AP2-9, 4AP1-6

Lamy Thierry 4JP1-11Lamzin Evgeny 2IP1-4, 2IP1-7, 1HP1-8Lancetov Andrey 3KP1-1Lange Christian 4HO1-8, 1BP1-4,

4HO2-5Lannou Hervé 2DO-6Larbalestier David 2GO1-2, 1GP1-7,

4GP2-2, 1IO2-8, 1IO2-1, 4GO2-6, PT5-1, 2CO-8

Laskaris Trifon 2DO-3

Lassiter Steve 1AP2-3Latrasse Louis 4JP1-11Le Bigaut Marianne 3KP2-6Le Quang 3GP3-6Lebasque Pierre 2AP1-8Lechner-Greite Silke 4IP1-8Leclerc Julien 3GP3-7Lecouturier Florence 2GO2-3,

3GP1-2, 2CO-4Lecrevisse Thibault 4JP2-2,

1EP2-4, 4GP1-3Lee B. S. 2IP3-4Lee Bang-Wook 4EP3-3, 4EP3-6,

4EP3-7, 1EP3-5, 1EP3-11, 4EP3-4Lee Chang Woo 4GP2-6Lee Changyoung 1FP1-3, 1FP1-4,

1FP1-10, 1FP1-11Lee Chulhee 4FP1-5Lee Dong Hee 3GP1-5Lee Dong-Hyeok 4EP1-6, 4EP1-7Lee Gyung-Su PT1-1Lee Haigun 1IP1-4, 1HP2-10,

3HP2-6, 3GP2-4, 1IP1-5, 1HP2-11, 4GP2-6, 1IP1-6, 1IP1-9, 4HP1-7,

3EP3-7, 1FP1-10, 3HP2-8, 1IP2-6, 1IP2-7, 2GP3-12, 2EP2-10

Lee Hansang 3EP2-9, 1EP5-6, 3EP1-7

Lee Hee-Jin 2EP2-2, 3EP3-4Lee Heejoon 1IP2-2Lee Ho-Young 2EP7-6, 3IP3-9Lee Hyo-Geun 1IP1-4Lee Hyun-Gu 3EP2-1Lee Jeong-Phil 4EP1-7Lee Ji-Kwang 2EP6-9, 1EP2-6,

2EP1-5Lee Jiho 2IP2-6, 1EO1-1Lee Jong-Su 4EP1-6Lee Peter 2GO1-2, 1GP1-7,

4GO2-6Lee S.Y. 2AP1-3Lee Sang-Ho 2EP7-7Lee Sang-Hwa 4EP3-3, 4EP3-6Lee Sang-Jin 1EO2-3Lee Sangjin 3IP2-2, 4EP2-4, 4EP2-6Lee Se-Hee 2IP3-4, 3IP2-8, 2EP7-6,

3IP3-9Lee Seung Ill 3HP2-2Lee Seung Ryul 3EP3-6, 3EP1-7Lee Seungje 4FP1-5Lee Seyeon 2EP6-9, 1EP2-6,

2EP1-5Lee Sukil 1EP1-5, 1EO2-3Lee Woo Seung 2IP2-6Lee Yongseck 2EP4-8Lei Lei 1GP1-2, 4GP4-2Lei Yuanzhong 4HP1-1, 1HP2-3,

1DP1-4, 2HP1-5, 1DP1-5Leibrock Hanno 3AP3-7Lelekhov Sergey 2IP2-1, 2BP1-3,

2BP2-6, 3KP2-10, 4GO1-1, 1BP1-6Lenisa Paolo 4HP1-5Lepoittevin Benoit 2AO-3Leung Eddie 2AP2-1, 2AP2-4,

2AP2-5Leveque Jean 3GP3-7, 4KP1-3Lewin Richard 1CP1-1Li Bo 3JP2-6Li Chunguang 1GP2-3Li Dandan 1LP1-11Li Derun 4AP1-5, 4HO1-6Li Frank 3DP1-6

Li Fuhua 1LP1-7Li H.L. 4IP3-1, 4IP3-6, 4IP3-7, 1EP4-2,

1LP1-8, 4IP3-4, 3JP2-5, 4IP3-5, 3DP1-3, 4IP2-4, 2EP6-10,

1EP2-7, 3JP2-8Li Hongwei 2BP2-3, 4BP1-4,

4GO1-1Li Jianfeng 2GP1-3, 2GP1-4

2GP1-5, 4GO1-4Li Jiangang 4HO1-2, 4HO2-6Li Jiangui 1LP1-3, 1LP1-4,

3EP2-5, 4FP1-7Li Jing 2EP6-4, 1EP4-5Li Jingdong 3EP1-2Li Juan 3JP2-2Li Lankai 1DP2-1, 3IP2-1, 1HP2-3,

1DP1-4Li Li 1AP3-2, 4KP1-7, 3KP1-3Li Liang 1HP2-4, 2HP2-4,

3KP2-1, 2HP2-1, 2HP2-3, 2HP2-8, 4FP1-4, 3IP3-5, 1CP1-2, 3IP2-4, 4KP1-8, 3DP1-4, 3DP1-5,

3GP3-3, 2HP2-9, 3KP2-8, 2HP2-10, 1CP1-3

Li Liyi 2EP5-3, 1IO2-3, 1HP2-7Li Ming 3AP1-3Li Pengyuan 3IP3-2, 3KP2-5Li Qing 1AP3-2Li Wang 2GO2-8Li Wei 2DP1-6, 4KP2-9Li Wenlong 1LP1-3, 1LP1-7Li Xian 4IP1-2Li Xiangjun 3EP2-7, 3EP2-8Li Yi 4DP1-3, 2HP1-5Li Ying 4IP1-10, 4IP2-6, 3DP1-2Li Yulin 2AP1-1Liang Ming 3GP1-1Liang Xuemin 1EO2-5Liao Xinglin 1FP1-7Libeyre Paul 1BO-6, 2BP2-3, 2BO-4,

3BP2-1, 4BP1-4, 2GO2-8, 2BO-1Lietzow Ralph 4HO1-8Lievens Peter 4JP1-5Lim Byung Su 2BP2-2, 3HP1-3,

2BP2-6, 2BO-1Lim Ji-Hyun 1EP1-5Lim Sung-Hun 2EP4-8, 1EP3-7,

1EP3-8, 1EP5-7, 1EP5-9, 1EP3-9Lim Zongsu 1EO1-4Lin Baihua 4EP1-2, 1EO1-7Lin Fu-Yuan 3CP1-2, 1AP2-4,

2AP1-3, 4IP1-7, 2AP1-6Lin Liangzhen 1EO2-5, 1EO1-2,

3GP3-4, 1EO2-6Lin Qunxu 2EP6-4, 2FP1-4Lin Wang 2GO2-8Ling Jiayin 1DP1-6Litherland Steve 2BO-4Liu Baohua 2HP2-3Liu Bo 1GP1-2, 4GP4-2Liu Chang 3JP2-1Liu Chenglian 3HP1-1, 3HP1-4,

3HP1-6Liu Chunhua 1LP1-5, 2EP3-3Liu Fang 1GP1-2, 4GP4-2Liu Fugui 3IP1-6, 3IP1-7, 1LP1-11Liu Hong Wei 1EP1-2, 2EP2-4,

1EP1-8Liu Huijuan 2EP6-1, 4EP2-1Liu Jianwei 4GO1-4Liu Liping 4BP1-4, 2GO2-8Liu Sheng 1GP1-9, 4GO1-1


Liu Siyuan 1DP1-7, 1DP1-8Liu Wei 1FP1-7Liu Weitao 2GP1-3, 2GP1-4Liu Weiwei 2HP2-8, 2HP2-4Liu Xianghong 2GP1-3Liu Xiaokun 1HP1-6, 1HP2-7Liu Xiaotao 2GO1-7Liu Xiujun 2EP7-3Liu Yu 3JP1-7, 4IP1-9Liu Yung-Hui 4IP1-7Liu Zhihong 4BP2-3Liu Zhiyong 4DP1-7Lizarazo J. 3AP2-8, 3KP1-7, 2AO-6Loiseau Philippe 2HP1-1Lombardi Alessandra 1LP1-10Lombardo Vito 4AP1-1, 4JP2-6Long Feng 2GP1-1

1GP1-2, 4GP4-2, 2GP3-4Long Nick 1IO2-6Lopes Mauricio de Lima 4AP1-1, 1AO-

6, 4AP1-6Lopez Carlos 1AP3-8Lopez Roberto 2GO2-1Lorin Clement 5IO-3Lorrier Philippe 3IP3-3Losasso Marcello 2BP2-5, 1BO-1, 4BP1-5Lotrus Paul 2HP1-1Lottin Jean-Pierre 1HP2-9Louradour Eric 3JP1-5Lu Jun 2GO2-5, 1GP1-9Lu Kun 3HP1-2, 2GP3-6, 3HP1-3,

3HP1-5, 3HP1-7Lu Xifeng 2GP1-9, 3GP2-5Lu Yafeng 3GP1-1, 3GP1-9Lu Yinlong 3AP1-3, 3AP1-6Luo Jiarong 2HP1-2Luongo Cesar 3BP2-4Lutchev Alexander 3KP1-2Luzieux Sebastien 2AO-3Lv Yiliang 1CP1-2Lyly Mika 3IP1-5Lyraud Charles 2BO-4Lysenko Valery 2IP1-3, 2DO-2, 4JP1-3

MM. Kwon 1HP1-10, 3BP2-6, 2IP2-3Ma Guangtong 2EP6-4, 2FP1-4

1FP1-12, 1FP1-7Ma Lizhen 2DP1-1, 4KP1-4,

4KP2-4, 1AP3-6Ma Wenbin 3FP1-1, 3IP1-4, 4DP1-7Ma Yanwei 2GP2-6Ma Young Jae 3GP1-5Maan Jan Kees 4GP4-4, 4CP1-4Machi Takato 4EP1-5Machiya Shutaro 1GP1-6Madej Piotr 2GP3-3Madur Arnaud 4IP1-11Maeda Hideaki 1IP2-3, 1IP1-3, 1IO2-5Maekawa Ryuji 4HO1-3, 4HO1-7,

1HP1-8Mahadevappa Vasanthakumar 3HP1-8Mahmoud Bakr 2AP3-5Mailfert Alain 4JP1-8Maix Reinhard 2GP3-1Majka Michal 2EP1-2, 2EP4-4Majoros Milan 4JP2-5, 3CP1-6Makarov Alexander 3GP1-4,

4AP1-3, 4GP4-7Makida Yasuhiro 3EP2-3, 3EP2-4Malagoli Andrea 2GO1-2

Mancic Dragan 4KP1-5Manfred Wanner 1BO-3Mangmang Gao 3GP1-8Manil Pierre 2AP2-9, 3AP2-3,

3AP2-4, 4IP2-8, 3IP3-8Marabotto Roberto 1AO-1March Stephen 2BO-5, 2HP1-6,

3HP2-3, 2BP1-5, 4BP1-7Marchevsky Maxim 2AO-4,

3AP2-8, 3KP1-7, 3AP2-6, 2IP2-5, 2AO-6Marechal Jean-Louis 2BP1-4,

4BP2-7Marie-Jeanne Mélanie 4JP1-11Mariette Yannick 4KP1-11Marinin Konstantin 1BO-7Marinov Kiril 1AP1-3Marinucci Claudio 2HP1-6, 2HP1-7Markiewicz Denis 4HO2-2, 2CO-8Markovic Nenad 4KP1-5Marks Neil 1LP1-1Marks Steve 4IP1-11Marlats Jean-Louis 2AP1-8Marone Andrew 3IP2-6, 4FO-6Marte Judson 2DO-3Marteau Fabrice 2AP1-8Martini Luciano 1EO1-3Martone Raffaele 1BP1-7, 1BP1-9Martovetsky Nicolai 2BP2-1,

2BO-4, 3BP2-3, 4GO1-7, 1GP1-9, 1BP1-8, 4GO1-1

Martínez Luis Miguel 3KP1-4Martínez Teresa 3KP1-4Marukawa Kotaro 3CP1-1Maruo Eijiro 2FP1-6Maruyama Osamu 1EP1-6,

1EP1-7, 4EP1-5, 1EP1-10Mary Arnaud 2AP1-8Masschaele Bert 4JP1-5Massinger Michael 2CP1-5,

3KP2-6, 1HP2-9Masson Thierry 1AP1-4Masuda Kai 2AP3-5Masuzawa Mika 1AP1-2, 3GP1-3,

1AP2-7Mathieu Jean-Baptiste 4IP1-8Matsuda Koichi 2EP6-6, 3EP1-5Matsui Kunihiro 1BO-8, 1BO-5, 2BO-7,

4BP1-8, 4BP2-2Matsukawa Makoto 1BP1-3Matsumoto Akiyoshi 2GP2-7Matsumoto Shinji 4FO-5, 1DP1-3,

4JP2-1, 2CO-2, 3JP2-3Matsuo Tetsuji 2EP6-2Matthews A.J. 4JP1-10Mauffrey Patrick 4BP1-5Mayri Christophe 4GO2-7, 2CP1-5,

3KP2-6, 1HP2-9, 2AP2-8Mcmullin John 2AP2-4, 2AP2-5Mcrae Dustin 1GP1-7Medioni Damien 3KP2-6Mednikov Andrey 3KP1-1Meier Ivan 4AO-7Meinesz Maarten 4GO1-3Meinke Rainer 5JO-8Melhem Ziad 1IO2-7Meng Song 4IP3-3, 3JP2-4Meng Yuedong 2HP1-2Merino José María 2EP6-7Meshkov Igor 3AP3-6Messina Giuseppe 3BP1-6Meuris Chantal 1DP1-1, 1DP1-2, 2DO-6Mezani Smail 4KP1-3

Miao Hanping 4GO1-3Michel Frederic 3BP2-2, 1BO-3Mierau Anna 1AP3-7Mikhaylov Vladimir 3AP3-6Mikko Karppinen 2AO-1, 2AP2-9,

2AO-3, 3AP2-4, 3AP2-5Mikkonen Risto 3IP1-5Mikolajczyk Melissa 1EO2-2Milanese Attilio 3AP2-3, 4KP2-8,

3AP2-4, 3AP2-5Miles Matthew 4JP1-9Millan Jose Samuel 4GP1-6Miller George E. 3HP2-7Miller James 1AO-6Miller John R. 3HP2-7Millet François 1HP1-1, 4JP1-8Milward Steve 1AO-7Minakawa Michifumi 4AP2-1,

4AP2-2, 1AO-4Minato Tsuneaki 1BP1-3Mine Susumu 2DO-3, 4JP1-12Minegishi Kazuhiro 2CP1-1,

3GP2-3Minervini Joseph 2HP1-3Mirzaei Mehran 4EP2-7Misawa Shintarou 2EP6-2Mishev Ventsislav 3GP2-2Mishima Fumihito 3FP1-5, 2GP3-9,

3FP1-7Mishima Kenji 2AP2-3Mitchell James 4JP1-9Mitchell Neil 2BP2-3, 3BP2-1,

3IP3-3, 3HP1-3, 2BP2-6, 3HP1-5, 1HP1-8, 3HP1-6, 4BP2-4, 1BO-2,

3HP1-7, 3HP1-8, 2BO-1, 1HP1-9, 4GO1-1, 2BO-2

Mitchell Roger 4JP1-4Mito Toshiyuki 2BP1-2, 1GP3-4,

4HO1-4Miwa Yuta 3EP2-3, 3EP2-4Miyagi Daisuke 1BP2-2, 3EP2-4,

1BP2-3Miyamoto Masaki 2EP6-2Miyashita Katsumi 4GO1-5, 1GP2-1Miyata Hitoshi 3BP1-4Miyatake Takayuki 4GO1-6Miyazoe Akihisa 2DO-1Miyoshi Yasuyuki 2GP1-2, 1GP1-5Mizuta Shingo 3KP1-8Modena Michele 1AP2-1, 3AP1-1Moennich Thomas 4HP1-2Möhring Tobias 4HO1-8Molina Eduardo 3AP3-7, 3KP1-4Molinie Frédéric 2HP1-1, 2DO-6,

4KP1-11Mollard Claude 4CP1-2Mondonico Giorgio 4GO1-6,

1GP1-4, 4GO2-2, 1GP2-5, 1GP1-8Montabonnet Valerie 4KP2-7Monteiro Lionel 4HO1-7Moog Elizabeth 2AP3-3Moon Kyung-Mo 4HO1-3Moon Seunghyun 3GP2-6Morandi Antonio 2FP1-5Morawski Andrzej 2GO1-3, 2GP2-3,

2GP2-5Mori Yoshiharu 3AP2-7Morice Stephane 1EO2-2Morishige Akihito 2DO-5Moritz Gebhard 4AP2-3Moya Iván 3KP1-4Mozola Pavol 1IO2-4


Muehle Carsten 4AP2-3, 1AP3-3Mueller Hans 1AP3-3Mukhanov Sergey 4JP1-1Munakata Kohei 3EP2-3, 3EP2-4Murakami Haruyuki 4BP1-1,

1BP2-1, 2BP1-2, 1BO-3, 1BP1-3Murakami Yukinobu 1BO-8,

4GO1-6Muralidhar Miryala 2EP2-9Muratore Joseph 4FO-6Muravieva Elena 3AP3-6Muromachi Kazuki 2HP1-9Musenich Riccardo 1AO-1,

2DP1-7, 1AO-8Muto Ryotaro 4AP2-1, 4AP2-2, 1AO-4Muto Suguru 2AP2-3Muzzi Luigi 3BP2-7, 2GP1-7Myatt Leonard 2BP2-8, 2BO-4, 2HP1-3Myung-Hwan Shon 3EP1-1

NN K Kishore 2IP2-7, 2IP2-10N. H. Song 1HP1-10, 2IP2-3Na Hoon-Kyun 1BP1-10, 3BP2-6,

2BP1-6Na Jin Bae 4EP3-1, 4EP3-5,

4EP1-3, 1FP1-10, 1FP1-11, 3CP1-7, 3CP1-8, 3HP2-8, 3EP3-8,

3EP3-11, 3CP1-9Nabara Yoshihiro 1GP2-11BO-8, 4GO1-6, 2BO-7, 4BP2-2, 4GO1-1

Nachtrab William 2GO1-7, 3GP3-5Naderi Golsa 2GO1-7Nagaya Shigeo 2HP1-9, 4HO1-4Naito Tomoyuki 3JP1-2, 4FP1-2Nakagawa Kazuhiko 4GO1-5,

4GO2-5, 1GP3-1Nakagawa Kota 3JP1-10Nakagome Hideki 1IP1-3, 1IO2-5, 1IP2-3Nakajima Hideo 1GP2-1, 1BO-8, 1BO-5,

2BO-7, 4BP1-8, 4BP2-2, 4GO1-1Nakamoto Tatsushi 4GP4-7,

1GP3-1, 1GP3-2, 4AO-6,4GP4-3, 1GP3-3, 3AP2-1

Nakamura Kazuya 1BP2-1, 3KP2-9Nakamura Takahito 3EP2-4Nakamura Taketsune 2EP6-2, 5JO-7,

1EP4-6, 3AP2-7, 3KP1-8, 2DO-5Nakazawa Shinobu 1BP2-2,

1BP2-3, 1BP2-7Nam Tae Sik 1EP3-6, 3EP2-10Nan Jieying 3BP1-3Nannini Mathieu 3IP3-3Naruki Megumi 4AP2-1, 4AP2-2, 1AO-4Natsume Kyohei 4HO1-4Negrazus Marco 4AO-3Neilson George H. 3BP1-2Ngamroo Issarachai 3EP2-2,

1EP5-1, 1EP3-4Nguyen Nhat Tung 1EP2-4Nguyen Van Hai 4HP1-7, 1IP1-6Ni Qing 3HP1-1, 3HP1-4Ni Zhipeng 1DP2-1, 1DP2-2, 3IP2-1, 4DP1-2, 1GP1-2, 4DP1-4, 1DP1-4Nicol Tom 1AO-6, 1AP3-4, 4AP1-6Nicollet Sylvie 4HO2-4, 3BP2-2,

2HP1-4Nielsen Bjarne R. 4JP2-8Nielsen Gunver 4JP2-8Nigam Mohit 4GO1-3Niinikoski Tapio 4HO1-6

Nijhuis Arend 4GO1-2, 1GP1-1, 2GP1-2, 1GP1-52GO2-6, 1IO1-4

Nikulshin Yasha 2EP4-3Nimori Shigeki 1GP3-1, 1GP3-2Ning Feipeng 4DP1-7, 3FP1-4Ninomiya Akira 1FP1-1Nishijima Gen 2BP1-8, 4GP1-7,

2GO1-5Nishijima Shigehiro 3FP1-5,

2GP3-9, 3FP1-7Nishimura Arata 2BP1-8, 1IP2-1,

1HP2-1, 2GP3-9, 1BP1-6Nishimura Kazuki 1IP2-1Nishimura Kohei 1IP2-1Nishio Hiroshi 2EP6-2Nishio Shigeru 4FO-2Niu Erwu 4GO1-1Niu Shuangxia 4IP3-1, 4IP3-6, 4IP3-7,

1EP4-2, 1LP1-8, 4IP3-2, 3DP1-3Niu Yanzhao 1EP1-2, 2EP2-4Nobrega Fred 2AO-1, 5JO-4, 4AP2-4,

3AP2-5, 4AP2-9Noda Koji 3KP1-8Noda Sho 2EP4-7Noda Takeshi 3GP3-2, 3GP2-1Noe Mathias 1BP1-2, 4HO2-5,

1EO1-3Noguchi So 1IP1-8, 1IP1-2Nomoto Kazuhiro 4BP1-1Nomura Naoki 3FP1-7Nomura Shinichi 2HP2-7, 2HP2-11Nonaka Katsuya 4KP2-11Noudem Jacques 3JP1-5Noumi Hiroyuki 4AP2-2Novitski Igor 2AO-1, 4AP1-3,

4AP2-4, 3AP2-5Novosilova Daria 2GP1-8Noyes Patrick 4HO2-2, 1IO2-8,

2HP1-8, 2CO-8, 3HP2-7Nunio François 2GP1-6

2DO-6, 1HP2-9, 4IP2-8, 3IP3-8Nunoya Yoshihiko 1GP2-1, 1BP2-2,

1BO-8, 1BP2-3, 2BO-7, 4GO1-1,2IP2-9, 2BP1-7, 4BP2-2

Nyilas Arman 1BO-6

OO’Reilly James 4CP1-5Oba Koki 4HO1-7Obana Tetsuhiro 2BP1-2, 1BP2-2,

1BP2-3, 2DP1-4, 3KP1-8Oberli Luc 4GO2-1, 1GP1-8,

1GP1-9, 3AP2-4, 1GP1-4Ochiai Kentaro 2BP1-8Oda Sayaka 2EP4-7Odier Philippe 1EO2-2Oertig Daniel 3HP2-3Oga Yuki 1IP1-2, 1IP1-8Ogata Kan’Ichiro 4AP2-2Ogata Toshiyuki 2EP6-5Ogawa Jun 1LP1-2, 2IP3-2, 2IP3-7,

1IP2-5, 2IP3-6Ogino T 3GP2-1Ogitsu Toru 4AO-6, 1GP3-3, 3AP2-1,

4AP1-2, 2DP1-4, 4GP4-7, 5JO-7, 3AP2-7, 3KP1-8, 4JP2-7

Oguro Hidetoshi 2BP1-8, 2CP1-1, 4GP4-3, 1GP3-3, 3CP1-1, 1GP1-6, 4GP1-7, 3GP2-7

Oh Dong Keun 3BP2-4

Oh Sangjun 4FP1-5Oh Sangsoo 4GP2-3, 3GP2-6Oh Seok-Ho 4EP3-3, 4EP3-6Oh Seung-Ryul 1EP1-5Oh Yeong-Kook 1BP1-6Oh Young Kun 3GP2-4Ohashi Shunsuke 1FP1-6Ohashi Yoshimasa 2EP6-2Ohgaki Hideaki 2AP3-5Ohmatsu Kazuya 1EP1-10Ohno Takahiro 2GP2-7Ohsaki Hiroyuki 2EP5-5, 4EP2-3, 2DO-1Ohsawa Yasunobu 1AP1-2Ohuchi Norihito 1AP1-5Ohya Masayoshi 1EP1-6, 1EP1-10Ojima Takumi 3GP3-2, 3GP2-1Oka Tetsuo 1LP1-2, 4FP1-1, 2IP3-2,

2IP3-7, 1IP2-5, 2IP3-6Okada Hidehiko 3JP2-3Okada Nana 5JO-7Okada Toshiya 1GP3-4Okamoto Hiroshi 4HP1-6, 2EP1-1Okano Makoto 4JP1-2Oki Toshiyuki 1AP1-2, 1AP1-5Okubo Ryuji 4AP1-2Okui Yoshio 3BP1-4Okuma Takeshi 1EP1-6, 1EP1-7,

4EP1-5, 1EP1-10Okumura Nobuo 2EP6-2Okuno Kiyoshi 1BO-8, 4BP2-2,

4GO1-1Okuyama Erika 1IO2-5Olesen Gert 4KP2-12Olier Patrick 2GO2-3Omer Mohamed 2AP3-5Oosemochi Koichi 1BO-5, 4BP1-8Ordieres Javier 2BP2-5Orikasa Tomofumi 3KP1-8Orlov Yutiy 3AP3-2Orris Darryl 2AP3-4, 4AP1-3Osabe Goro 2GO1-6Osamura Kozo 2EP6-2, 1GP1-6Oshikiri Masayuki 1BO-8, 4BP2-2Ostojic Ranko 5IO-7, 1AO-6Ouyang Haibo 2GP1-5Oyama Mitsuru 4FP1-2Ozcivan Ahmet Nuri 3EP1-10

PPage Thomas 5IO-7, 1AO-6, 4AP1-6Paik Kyoung-Ho 1IP2-2, 2IP1-5Painter Tom 4KP2-2, 2CO-6, 2CP1-7Pak B. H. 3EP3-10, 2EP1-6Palmer Robert 4AP1-4Pamidi Sastry 1EO2-4, 5JO-8, 2EP2-5,

2HP1-8Pan Chuanjie 3KP2-5Pan Heng 2HP1-10, 4AP1-5,

4HO1-6Pan Siting 1FP1-5Pan Yuan 2HP2-4, 2HP2-3Panda Magnet Group 1AO-5Pang Yuchun 2GP1-1Pantsyrny Victor 1GP1-9, 4GO1-1,

1GP2-7Pantsyrny Victor 2GP1-8Paoloni Eugenio 1AO-1Pape Moller Soren 4JP2-8Pappalardo Luciano 4HP1-5Pardo Enric 1IO2-4Park Chan 1EP2-6, 2EP1-5


Park Chung-Ryul 4EP3-2, 1EP5-5Park Dong Keun 1DP2-4, 1DP2-5,

1DP2-6, 2DO-8, 1DP1-6Park Dong-Seong 4HO1-3Park Heecheol 2GP3-11Park Hyoung-Min 1EP5-2, 1EP5-8,

1EP5-10, 1EP5-3, 3EP1-6Park Il Han 3DP1-7, 1EP2-6,

4FP1-6Park Jung-Wook 2EP2-2, 3EP3-4,

2EP3-1, 3EP2-1Park Kap-Rae 1BP1-10, 3BP2-6,

2BP2-7, 2IP2-3, 2BP1-6Park Kwang-Myoung 4FP1-5Park Kwon-Bae 3EP3-9Park Minwon 1EO1-4, 1IP1-4,

1HP2-10, 3HP2-6, 2EP2-6, 4EP2-4, 2EP2-8, 4EP2-6, 1EO2-3

Park Minwon 3IP2-2, 2GP3-11Park Pyeon-Yeol 1GP1-9Park Sang Ho 2EP6-9, 1EP2-6,

2EP1-5Park Soo-Hwan 1BP1-10, 3BP2-6Park Soo-Hyeon 3GP1-5, 4GP4-5,

1GP1-9, 4GO1-1Park Tae-Gun 4EP3-3, 4EP3-6Park Tae-Joon 4EP2-6Park Taejun 1EO1-4Park Wonwoo 3GP1-5Parker Brett 1AP2-6, 4FO-6Parrell Jeff 4GO1-3Patel D. 4BP2-1Patel Dipak 4GP1-2Patel Madhu 4BP1-2Patel Vijay 4BP2-4Payn Alain 2DO-6, 2GP1-6Pedrozzi Marco 4AO-3Pei Ruilin 2EP5-1Pei Xiaoze 1EO1-6Penco Roberto 5JO-5Peng Tao 3KP2-1, 1CP1-2, 1CP1-3Perenboom Jos 4CP1-4, 4GP4-4Perez Juan-Carlos 2AP2-9, 2AO-3,

3AP2-3, 3AP2-4Perini Diego 1AP2-5Perini Elena 2FP1-5, 2GP2-9Perrella Mauro 1AO-1Pes Chhon 4JP2-2, 1EP2-4,

2CP1-5Peterson Thomas 1AO-6Petit Sarah 1EO2-2Petmezakis Panayoti 4CP1-7,

4CP1-2Petrone Carlo 4KP1-9, 3KP1-5Peyrot Marc 1BO-3, 1BO-4Pfister Rolf 4HP1-3, 4GO2-7,

2CP1-5Pflueger Joachim 3KP1-4Phillips Guy 3BP1-5, 3IP3-7Phillips Makita 1IP1-7Pi Sungik 1EO1-4Pickard Ken 2CO-8Piekarz Henryk 1AP3-4Pilo Federico 1AO-1Piskunov Nikolay 2DO-2, 4JP1-3Pittaluga Stefano 4DP1-5Pizzuto Aldo 3BP1-6Plate Stephan 4AP1-4, 3IP2-6Podlivaev Alexey 4IP2-1Pokrovskiy Sergey 4IP2-1Pokrovsky Valery 1AP3-1, 3KP1-2Polak Milan 1IO2-4

Polikarpova Maria 2GP1-8Polinski Jaroslav 3KP2-6Polli Gian Mario 3BP2-7, 3BP2-8

2CP1-7Pompe van Meerdervoort Rutger GO1-2

1GP1-1Pompeo Nicola 3BP2-7Poncet Alain 4HP1-4Pong Ian 1GP1-9, 4GO1-1Pooke Donald 4JP1-9Popov Yuri 2HP2-2Popovic Radivoje 4KP1-5Popp James 1AO-6Porcar Laureline 1EO2-2Portafaix Christophe 3BP2-2Portone Alfredo 2CP1-6, 4BP1-7,

1BP1-7, 1BP1-9Potanina Ludmila 2GP1-8Potye Marcos 2AP1-2Powell Andy 4KP2-2Pradhan Subrata 4BP2-1, 1IO1-2,

2GP3-8, 4BP1-2, 2BO-6, 4GP1-2, 1BP1-6

Prasad Krishna 3HP1-8Prasad Upendra 4BP2-1, 1IO1-2Prebys Eric 5JO-4Prestemon Soren 5IO-2, 2AP2-4,

2AP2-5, 4KP2-9, 2IP2-5, 4IP1-11, 2HP1-11, 4FO-3

Presz Adam 2GO1-3, 2GP2-3, 2GP2-5

Prin Herve 2GO2-1Principe Rosario 4GP4-6Prokopec Rainer 2GP3-1Pugnat Pierre 4HP1-3, 4GO2-7,

2CP1-5, 4CP1-8Pujana Ainhoa 2EP6-7Punzo Vincenzo 4DP1-5Putselyk Sergiy 2AP2-2Pyka Niels 1AP3-3Pyon Tae 3GP1-6

QQi Dongchen 4JP1-9Qi R. Y 1EP4-4, 1EP4-7Qian Jing 2HP1-2, 1IO1-7Qin Jinggang 2GP1-1, 4GP4-2Qin Lizi 4IP2-7Qiu Li 4FP1-4Qiu Ming 1EP2-1, 1EP2-3, 2EP3-6Qiu Qingquan 1EO1-2, 1EO2-6Qu Ronghai 1LP1-12Quack Hans 3HP2-3Quettier Lionel 2AP2-1, 2AP2-4,

2AP2-5Queval Loic 2EP5-5

RRademann Detlev 1BP1-5Raj Piyush 4GP1-2Rajainmaki Hannu 2BP2-5, 1BO-1Ramakrishnan Subrahmanya 3BP1-2Rao Bo 3BP1-3Rao V. Vasudeva 4EP1-1, 2IP2-4, 2IP2-7Rauber Thomas 4AO-7Ravaioli Emmanuele 5JO-3, 4KP2-7Ravat Sylvain 1AP2-5, 4KP2-12Readman Peter 1GP1-9, 4GO1-1Reccia Luigi 3BP1-6Redmon Chris 4FO-1Reed Richard 2BO-4

Reggiani Davide 4AO-7Regis Federico 5IO-8, 2AP2-9, 3AP2-4Reiersen Wayne 2BO-4, 4GO1-1Ren Junxue 3JP2-2, 3JP2-7Ren Li 3EP1-2, 1EP1-1Renault Pierre-Olivier 2GO2-3,

3GP1-2Renu Bahl 2IP2-7, 2IP2-10Restuccia Francesco 1AP2-5Revilak Philipp 4JP2-3Rey Christopher 2BO-4Rey Jean-Michel 4GP1-3, 4JP2-2,

1EP2-4Rhee Sang-Bong 1EP3-5Ribani Pierluigi 4GP3-5Richmond James 1LP1-1Richter David 1GP1-8, 2GO2-7Rickel Dwight 4FO-7Rifflet Jean-Michel 3AP2-3Rikken Geert 2CO-4Rindfleisch Matt 2GO1-3, 2GP2-3,

2GP2-5, 1DP1-6, 1EO1-6Risse Konrad 3BP1-2Rizzo Enrico 3HP2-4Robert Goddard 2GO2-4Robin David 2DP1-8Rocha Milton 2AP1-2Rochepault Etienne 2IP1-2,

1GP1-10Rochford James 4JP1-12Rodig C. 2GO1-1Rodin Igor 3IP1-1, 3KP1-1Rodrigo Pascoal 2BP2-5Rodriguez Iker 3AP3-7Rodriguez-Mateos Felix 4HO2-4,

2BO-4, 2HP1-4, 4HP1-4Roggen Toon 4JP1-5Rolando Gabriella 1IO1-4, 2GP1-2Romanovskii Vladimir 3HP2-1Ronayette Luc 4HP1-3, 4GO2-7,

2CP1-5Rondeaux Francoise 3AP2-3,

1GP1-10Rook Jos 4CP1-4Rosaria Villari 3BP2-8Rossi Lucio 2AO-1, 1GP3-6,

4GO2-1, 3AP2-5, 2AO-5Roth Felix 5JO-2Rott Michael 4BP2-5Rousset Bernard 4HO1-7Roveta Guido 2GP1-7Roveta Marco 2GP1-7, 2CP1-7Ruban Alexander 2HP2-2Rudnev Igor 4IP2-1Rummel Kerstin 1BP1-5Rummel Thomas 4HP1-2, 3BP1-2Ruppert Ernesto 2EP4-5, 3EP1-8Russenschuck Stephan 2AO-3Ryu Kang Sik 3CP1-7, 3EP3-8

SS. W. Kwag 1HP1-10, 2IP2-3Sa J. W 2BP2-7Sabbi GianLuca 5JO-4, 4KP2-8,

4AP2-4, 2AO-4, 4AP2-5, 3AP2-8, 3KP1-7, 3AP2-6, 2IP2-5, 2AO-6,

4AP2-8, 4AP2-9Saeda Masahiko 4GO2-5Saejia Mongkol 3EP2-2Saez De Jauregui David 4KP1-2,

2AP3-1


Saglietti Luca 2GP2-9Sahner Thomas 2AO-3Sahu Ananta 3HP1-5, 3HP1-7,

3HP1-8, 1HP1-9Saijo Motohito 4AP2-2Sailer Bernd 2GO1-1Saito Akihiro 1IP1-1Saito Naohito 4AP1-2Saito Takashi 1IP2-4, 4EP1-5Saitoh Ayumu 3JP1-3Saitoh Yoshiyuki 4AP2-1, 4AP2-2, 1AO-4Sakai Kenji 2AP2-3Sakai Toshirou 1GP3-4Sakamoto Hisaki 4GP1-7Sakamoto Keishi 3BP1-4Sako Katsuhisa 1BP1-3Sakurai Yoshihiro 4GO2-5Sala Philippe 4JP1-11Salmi Tiina 2IP2-5Salpietro Ettore 2CP1-6, 4BP1-7Salunin Nicholay 2GP1-8Sampson William 4AP1-4Sanabria Carlos 4GO2-6Sanchez Priscila 2AP1-2Sandrine Le Naour 4GO2-8Sanfilippo Stephane 4KP1-1,

4AO-7, 4AO-3Sanz Santiago 2EP6-7, 3KP1-4Sarangi Sunil Kumar 4EP1-1Sarigiannidou Eirini 1EO2-2Sarmiento Gustavo 2EP6-7Sasaki Ken-Ichi 4AO-6, 3AP2-1, 4AP1-2Sasaki Shuhei 4FP1-8Sasaki Tomohisa 3JP1-2Sasaki Yoshinobu 2CP1-1Sato Ayumi 2IP3-7Sato Kenichi 2EP4-7Sato Takao 1LP1-2, 2IP3-2, 2IP3-7Sato Yoshinori 4AP2-1, 4AP2-2, 1AO-4Satoh Yuji 4AP2-1, 4AP2-2Sattler Stefan 2BP2-5Savary Frederic 4KP1-6, 3IP3-6, 2BO-2,

4BP2-4, 2BO-1, 2GP3-1Savino James 2AP1-1Savoldi Richard Laura 3BP2-3,

4HO2-1, 3HP2-4, 3BP2-5Sawada Shinya 4AP2-1, 4AP2-2, 1AO-4Sborchia Carlo 4GO1-1Scanlan Ronald 4AP1-4Scheller Holger 2BP2-5, 4BP1-7,

2CP1-6Scheuerlein Christian 1GP3-5Scheuermann Robert 4AO-7Schild Thierry 2DO-6, 2GP1-6,

4DP1-8Schillig Josef 4FO-7Schlachter Sonja 2GO1-4Schlenga Klaus 2GO1-1Schlueter Ross 4KP2-9, 4IP1-11Schmalzle J. 5JO-4, 4AP2-4, 2AO-4,

4AP2-5, 3AP2-8, 2AO-6, 4AP2-9Schmidt Rudiger 4KP2-7Schneider Stefan 4GP1-5Schneider William 2AP2-1, 2AP2-4,

2AP2-5Schnizer Bernhard 1AP3-7Schnizer Pierre 1AP3-7Schön Heinz-Philipp 2AP2-2Schultz Joel 2HP1-3Schwartz Justin 2GO1-7, 4HP1-8,

1IO2-2, 3GP3-6, 1IP1-7, 3GP3-5Schwarz Michael 1IO1-6

Scoble Harry 3GP1-6Scola Loris 2DO-6, 4DP1-8Se-Hoon Jang 4GP2-3Sedlak Kamil 4AO-7Seeber Bernd 4GO1-6, 1GP1-4,

4GO2-2, 1GP2-5, 1GP1-8Segreti Michel 2AO-3Seidl Tim 2GP3-3Seki Takayoshi 3KP2-4Sekiguchi Daisuke 2EP6-2Sekino Masaki 4EP2-3, 2DO-1, 2EP5-5Semperger Sandor 1EP2-4Senatore Carmine 1GP1-4, 4GO2-2,

2GP2-2, 1GP2-5, 1GP1-8Senda Ikuo 1BO-5, 4BP1-8Seo Hyo Ryong 1HP2-10Seo In-Jin 4EP3-7, 4EP3-4Seo Kasutaka 3IP3-6, 2BO-2, 4BP2-4Seong Jae-Kyu 4EP3-3, 4EP3-6,

4EP3-7, 1EP3-11Seong Kichul 2GP3-2, 1HP2-10,

1EP2-6Serio Luigi 4HO1-3, 4HO1-7,

1HP1-8Seryi Andrei 3AP1-2Sessler Andrew 2DP1-8Sgobba Stefano 1BO-6, 2BO-4Shabunov Alexey 3AP3-6Shah Samir 4BP2-4Sharma A. N. 4BP2-1, 1IO1-2Shatil Nikolay 1HP1-8Shcherbakov Peter 1AP3-1Shen Guang 3HP1-1, 3HP1-2,

3HP1-3, 3HP1-4, 3HP1-6, 3HP1-10Shen Jie 2HP1-2Sheng Jie 3EP3-1, 1EO1-7Shepherd Ben 1LP1-1Sheppard Bill 2GO2-5Sheppard William 2CO-8Sheth Manan 1GP1-7Shi C.T 3KP1-3Shi Jiangtao 2HP2-9, 3KP2-8,

2HP2-10Shi Jing 1EP1-1, 3EP1-2, 2EP3-7Shi Yi 2BP1-1Shibata Keiichiro 3KP2-4Shibayama Makoto 2IP3-7Shigue Carlos Y. 2EP4-5, 3EP1-8Shikama Tatsuo 2BP1-8Shikimachi Kouji 2HP1-9, 4HO1-4Shiltsev Vladimir 1AP3-4Shim Jae Woong 1EP3-6, 3EP2-10Shim Seong Yeub 1AP3-3Shim Woo-Gwang 1EP3-9Shima Tatsushi 2AP2-3Shimada Katsuhiro 1BP1-3Shimada Mamoru 1BO-5, 4BP1-8Shimada Ryuichi 3IP2-5, 2HP2-11Shimizu Hirohiko 1AP2-7Shimizu Hitoshi 1GP3-4Shimomura Koichiro 4AP1-2Shimoyama Jun-Ichi 3JP1-9Shin Byoung Yoon 3EP2-9Shin Dong Won 3CP1-5Shin Hee-Sang 1EP3-1, 1EP3-2,

1EP3-3, 1EP3-10Shin Hyung-Seop 3GP2-3Shin Woo-Ju 4EP3-3, 4EP3-6,

4EP3-7, 1EP3-11, 4EP3-4Shintomi Takakazu 3EP2-3,

3EP2-4Shiohara Kei 4HP1-6

Shiohara Yuh 2EP6-5Shirai Yasuyuki 2EP4-7Shirakabe Yoshihisa 4AP2-2Shiroyanagi Yuko 4AP1-4Shirshov Leonid 1AP3-1, 3KP1-2Shumm B. 2DO-2Shutov Kirill 1BO-7Sidorov Serguei 4KP1-1, 4AO-3Siemko Andrzej 5JO-1, 4KP2-7Sim Jungwook 3EP3-9Sim Kiduk 1EO2-3Simon Fabrice 2BP2-2, 4HP1-4,

2BP2-6Sims James 4FO-7Sinanna Armand 2DO-6Sirois Frédéric 4KP1-3Sivasubramaniam Kiruba 4JP1-12Skiadopoulos Denise 2AP3-3Slabodchikov Pavel 1AP3-1Small Ross 2AP2-4, 2AP2-5Smekens David 2AO-3, 3AP2-5Smirnov Alexandre 1BP1-8Smirnov Vladimir 1AP3-1Smith Alexander C. 1EO1-6Smith Dave 3GP1-6Sohei Imajo 2AP2-3Sohn Song-Ho 1EP1-5Solfaroli Camillocci Matteo 4KP2-7Solyak Nikolay 3AP3-2Son Gumtae 2EP2-2, 3EP3-4Song Honghai 2DO-3Song Jung-Bin 1IP1-4, 1HP2-10,

3HP2-6, 3GP2-4, 1HP2-11, 1IP1-6, 1FP1-10, 1IP2-6, 2GP3-12

Song Jung-Bin 4IP2-5Song Naihao 1EO2-5, 1EO1-2,

1EO2-6Song Sang-Seob 4EP1-8, 4EP1-6Song Shengyi 4JP1-6Song Shousen 1DP1-4, 1DP1-5Song Tao 4DP1-6Song Xiaohang 1HP2-4Song Xiaowei 4EP2-8Song Yongtao 3HP1-1, 2GP3-6,

3HP1-3, 3HP1-4, 1BP1-6, 3HP1-5, 3HP1-6, 3HP1-7, 3HP1-10

Song Yunxing 3IP2-4Sonobe Taro 2AP3-5Sorbi Massimo 4JP2-2Soubeyroux Jean-Louis 1EO2-2Souc Jan 1IO2-4Spencer Cherrill 3AP1-4Stadlbauer Tobias 2DP1-2Stafiniak Andrzej 5JO-1, 4KP2-3,

3KP2-3, 2GP3-3Staines Mike 1IO2-6Starch William 1GP1-7, 4GO2-6Starikov Andrei 3AP3-6Statera Marco 4HP1-5Stauffer Theodore 3GP2-5, 2GP1-9Stautner Wolfgang 2DO-3,

4JP1-12Steckert Jens 5JO-3, 4KP2-7Steier Christoph 4IP1-11Steinmann Jochen 4JP2-3Stelzer Gerry 5JO-8Stenvall Antti 3IP1-5, 4JP2-2Stepanov Boris 4GP4-1, 2BO-5, 2BP1-3, 1BP2-6, 2BP1-5, 5JO-2, 4GP4-4,

4BP1-7, 2BO-7, 4GP4-5, 4BP2-2Stork Holger 4CP1-2Strange D. 4JP1-10


Streibl Bernhard 4BP2-5Sube Samuel 4KP1-11Süßer Manfred 2AP2-2Sueno Tsuyoshi 1AP1-2Sugimoto Masahiro 1GP3-4Sugita Kei 3AP3-8Sumptioin Mike 2GO2-6, 3CP1-6,

4JP2-5Sun Changchun 2DP1-8Sun Daming 4HO1-1Sun Eric 1AP2-3Sun Qiushuang 2EP2-4, 1EP1-2,

1EP1-3Sun Quqin 3EP1-2Sun Sen 4AP1-5, 3HP2-9, 4HO1-6Sun Zhenchao 3KP2-5Sun Zhihong 1HP2-9Sun Zhiyin 2EP5-3Sung Byung-Chul 2EP3-1Suran Renaud 4GP1-3Susner Mike 2GO2-6Suttner Ethan 2AP1-1Suttrop Wolfgang 4BP2-5Suzuki Hiroshi 1GP1-6Suzuki Kenji 2EP2-9Suzuki Takahiro 2HP1-9Suzuki Yoshihiro 4AP2-1, 1AO-4, 4AP2-2Suzuki Youichi 1GP2-1Svalov Grigory 1BO-7Swenson Charles 4FO-7Sylvester Cosmore 5JO-4Sytnik Veniamin 3AP3-1, 1AP3-1

TTachikawa Kyoji 2GP2-7Tagawa Kohei 1GP2-1, 1BO-8Takagi Toshiyuki 1IP2-1, 1BP2-1Takahashi Hitoshi 4AP2-1, 4AP2-2, 1AO-4Takahashi Keita 5JO-7, 3AP2-7Takahashi Kohki 2CP1-1, 1GP1-6Takahashi Masato 1IP1-3, 1IO2-5, 1IP2-3Takahashi Yosjikazu 1GP2-1, 1BO-8, 2BO-7, 4GO1-7, 4BP2-2, 4GO1-1

Takahata Kazuya 2BP1-2, 1BP2-2, 1BP2-3, 1GP3-4

Takala Eelis 1GP3-6, 4GO2-1, 1GP1-8

Takami Shigeyuki 4HO1-7Takano Katsutoshi 1BO-5, 4BP1-8Takao Tomoaki 1IP2-1, 1BP2-1, 1FP1-2,

1HP2-1, 1GP3-2, 3GP3-2, 3GP2-1, 1IP1-3, 1IO2-5, 1IP2-3, 2IP3-6

Takasaki Minoru 4AP2-1, 4AP2-2, 1AO-4Takayama Teruou 3JP1-3, 4IP2-3Takayanagi Tomohiro 2HP2-6,

2HP2-12Takeda Minoru 4FO-2Takematsu Takuya 1IP2-3, 1IP1-3, 1IO2-5Taketani Kaoru 2AP2-3Takeuchi Takao 1GP3-2, 4GO2-5,

2BP1-8, 1GP3-1, 4AO-6, 4GP4-3, 1GP3-3, 3AP2-1

Tamada Tsutomu 4HO1-4Tamura Akihiro 2IP3-2Tamura Hitoshi 4HO1-4, 1GP3-4Tan Yunfei 2CP1-8, 2CP1-2Tanaka Kazuhiro 4AP2-1, 4AP2-2, 1AO-4Tanase Yasuyuki 4FO-2Tang Haibin 3JP2-2, 3JP2-7Tang Jia 3HP1-4Tang Xiande 4GO1-4

Tang Yuejin 3EP1-2, 1EP1-1Tanoue Naoki 1BP2-1, 1FP1-2Taran Anatoly 1BO-7Tarasov V. 2DO-2Tartaglia Michael 3AP3-2, 2AP3-4,

4AP1-3, 1AO-6, 4GP4-7Tartaglia Mike 5JO-4Tassisto Matteo 2AP2-2Tatsuya Matsukawa 2HP2-11Tavakoli Keihan 2AP1-8Tawada Masafumi 1AP1-5Taylor Clyde 2AP2-4, 2AP2-5Taylor Tom 3HP1-10Tediosi Riccardo 4GP1-5, 2CO-1Teleberg G. 4JP1-10Temnykh Alexander 2AP1-1Ten Kate Herman 3AP3-9,

1IO1-4, 1AP2-5, 4GO2-8, 1HP2-6, 2IP2-5, 4KP2-12

Tena Manuel 4BP1-3Teng Yuping 1EO2-5, 1EO1-2Terakado Tsunehisa 1BP1-3Teranishi Ryo 4JP2-1Terao Yutaka 4EP2-3Terasawa Atsumi 2IP1-4Terashima Akio 4AO-6, 3AP2-1, 3GP1-3Terazawa Toshihisa 1LP1-2,

2EP6-2Terechkine Iouri 2AP3-4Teshima Osamu 1BO-8Teshima Shotaro 1BP2-2, 1BP2-3Testoni Pietro 1BP1-7, 1BP1-9Thanh Nguyen Tung 4JP1-5Theiler Geraldine 2GO2-2Theisen Eckhard 2BP2-5, 4BP1-7,

2CP1-6, 4BP2-7Theune Claus-Friedrich 1EO2-2Thiesen Hugues 5JO-3, 4KP2-7Thilly Ludovic 2GO2-3, 3GP1-2Thonet Pierre 1AP2-2Thummes Guenter 4HO1-1Tian Huabin 3JP2-2Titus Peter 1BP1-8, 3BP1-7,

2BP2-8Tixador Pascal 4JP2-2, 4EP1-4,

1EP2-4, 1EO2-1, 4GP1-3, 1EO1-3Tkachenko Leonid 3AP3-1, 1AP3-1,

3KP1-2Toda Masahisa 3EP1-10Togashi Tomohito 2HP2-12Tokuda Noboru 1AP1-2Tokushige Koudai 4KP2-11Tomarchio Valerio 3BP1-5, 3IP3-7Tomi Yuichi 2GP3-9Tomita Masaru 1DP2-5, 3JP1-9,

2EP2-9Tommasini Davide 1AP2-1, 3AP1-1, 1AP1-1, 1AP2-2, 3JP1-1, 2GO2-7, 1AP3-8Tomoda Shinichiro 2EP6-5Tompkins John 4AP1-3Tomsic Michael 2GO1-3, 2GP2-3,

2GP2-5, 1DP1-6Tongu Hiromu 1AP2-7Topilin Nikolai 3AP3-6Topin Frederic 2HP1-4Toplosky Vince 2GO2-4Torre Alexandre 1IO1-3, 4BP1-3Tosaka Taizo 4JP2-7Tosin Giancarlo 2AP1-2Toth Jack 4CP1-5Toyoda Akihisa 4AP2-1, 4AP2-2, 1AO-4Trakhtenberg Emil 2AP3-3

Trequattrini Alessandro 4DP1-5Triquet Stephane 4GP4-6Trociewitz Ulf 2GO1-2, 1IO2-8,

2HP1-8, 1IO2-1, 4GP2-2Tronza Vladimir 4GO1-7, 1GP1-9,

4GO1-1Trophime Christophe 4CP1-2,

1EP2-4, 2CP1-5, 4JP1-11, 4CP1-8Trubnikov Grigory 3AP3-6Tsubouchi Hirokazu 2CP1-1,

1GP3-4Tsuchiya Katsuhiko 4BP1-1,

1BO-3, 1BP1-3Tsuchiya Kiyosumi 4GO2-5,

1GP3-1, 1GP3-2, 4AO-6, 4GP4-3, 1GP3-3, 3AP2-1, 3GP1-3, 1AP1-5

Tsuda Makoto 1BP2-2, 3EP2-3, 3EP2-4, 1BP2-3, 3EP1-10,

1BP2-7, 3EP1-9Tsuji-Iio Shunji 3IP2-5Tsukamoto Osami 3GP3-2, 3GP2-1,

1IP2-5, 2IP3-6Tsukamoto T 3GP2-1Tsutsui Hiroaki 3IP2-5Tsutsumi Fumiaki 1BO-8, 4BP2-2Tsuzuku Seiji 1GP2-1Tudela Jean-Marc 2CO-4Tuozzolo Joseph 3IP2-6Turck Bernard 1IO1-6, 1IO1-3Turenne Melanie 4HP1-8Turrioni Daniele 4AP1-1, 2AO-1, 4AP1-3,

4AP2-8, 4JP2-6, 4GP4-8Turtu Simonetta 2BP1-3, 3BP2-7,

2GP1-7Twin Andrew 4JP1-10

UUchida Akira 4JP1-2Ueda Hiroshi 2HP1-9Uen T.M. 3CP1-2Ueno Eisaku 4FO-4Ueno Tomoaki 2HP2-12Uglietti Davide 2HP1-7, 1BP2-6,

3GP3-1, 2CO-2, 5JO-2Umer Amir Khan 1EP3-11Uno Taiga 3GP3-2, 3GP2-1Uno Yasuhiro 4BP2-2, 1BO-8Uriu Yoshihisa 1FP1-1Ushiyama Toshio 1GP3-4Utin Yuri 2IP1-4Utkin Anatoly 4AP2-3Uwani Yohei 4FP1-3

VV Vasudeva Rao 2IP2-10Vachirasricirikul Sitthidet 1EP3-4Valente Pierluigi 2BP2-6Vallcorba Roser 4HO1-7Valori Domenico 2GP1-7van der Laan Danko 3GP2-5van Lanen Ezra 1IO1-4,

5IO-4, 1BP2-4, 1IO1-1, 1GP1-5van Petegem Steven 3GP1-2van Swygenhoven Helena 3GP1-2Varmora P. 4BP2-1Vasiliev Dmitry 3KP1-2Vasserman Isaac 2AP3-3Vázquez Cristina 3KP1-4Védrine Pierre 2IP1-2, 2DO-6, 2GP1-6,

1GP1-10Velev Gueorgui 3GP1-4, 5JO-4


Verger Jean Marc 4BP1-3Verpont Audrey 1BO-1Verweij Arjan 1HP2-6, 5JO-3, 4KP2-7Viale Andrea 5IO-5Vidal Nadine 4CP1-8Vierle Thomas 4BP2-5Vincent Guillaume 4HO1-3Viouchkov Youri 2HP1-8, 1IO2-8Virostek Steve 2HP1-10, 2HP1-11,

4HO1-6Viznichenko R. 4JP1-10Vobly Pavel 4AP2-3Voccio John 1EO2-4, 1DP2-5,

2DO-8, 1DP1-6, 3DP1-6Vogel Martin 2BO-5, 3HP2-3, 4BP1-7Volpini Giovanni 4JP2-2Volzke Olaf 1BP1-5Vonlanthen Patrik 2CO-1Voran Adam 2CO-8Vorobyeva Alexandra 1GP2-6,

2GP1-8Vorozhtsov Alexey 1AP2-1, 3AP1-1,

1AP2-2Vostner Alexander 2BP1-3, 2GP1-2,

4GO1-7, 3GP1-7, 1BO-2, 4GO1-1Vrankovic Vjeran 4AO-3, 4KP1-1, 4AO-7Vu C. 3KP1-7Vysotsky Vitaly 1BO-7

WWada Hitoshi 3JP2-3Wadayama Yoshihide 4GO1-5Waeckerle Thierry 1EO2-2Wagner Bob 2AP2-4, 2AP2-5Wake Masayoshi 5IO-7, 1AO-6Wakeford Gary 3DP1-6Wakuda Tsuyoshi 1EP4-6, 3KP2-11Walbridge Dana 4AP1-3Walsh Robert 1GP1-7, 2CO-8Walter Christian 4KP1-11Walter Wolfgang 2AP3-1, 4JP2-3,

4BP2-5, 4BP2-7Walther Hansueli 4AO-7Wan Biyu 4FO-2Wan Weishi 2DP1-8Wanderer C. P. 1AP2-6, 5JO-4, 4AP2-4,

4AP1-4, 2AO-4, 3IP2-6, 4AP2-5, 4FO-6, 3AP2-8, 2AO-6, 4AP2-8, 4AP2-9

Wands Robert 5IO-7, 1AO-6Wang Bert 4FO-3, 2AP2-4, 2AP2-5Wang Chuan 3AP1-3Wang Chunzhong 1DP2-1, 4DP1-4,

1DP1-4, 3IP2-10Wang Dongliang 2GP2-6Wang Housheng 2FP1-2, 3IP2-1,

1DP1-4, 4IP1-2, 2FP1-3Wang Hui 2FP1-1, 2FP1-2,

1HP2-3, 3CP1-3, 2FP1-3Wang Hui Xian 1DP2-7Wang Jianmin 2EP1-3Wang Jiasu 2EP6-4, 1FP1-12,

2FP1-4, 1EP4-5Wang Jin 1LP1-12Wang Jun 2HP2-3Wang Junhua 4FP1-7, 3JP2-8Wang Li 2HP1-10, 4AP1-5, 3HP2-9,

4HO1-6Wang Meifen 4DP1-7, 3FP1-4,

3FP1-6Wang Mimi 2AP2-4, 2AP2-5Wang Qiuliang 3IP1-2, 2DO-7, 1DP2-1,

1DP2-2, 2FP1-2, 3IP2-1, 4HP1-1, 4DP1-2, 4DP1-3, 1HP2-3, 4DP1-4, 1DP1-4, 2HP1-5, 4IP1-2, 3CP1-3,

2FP1-3, 1DP1-5, 3IP2-9, 3IP2-10, 2FP1-1Wang Shaoliang 1HP2-4Wang Su 1FP1-7, 3JP1-4, 1FP1-9Wang Suyu 2EP6-4, 2FP1-4,

1EP4-5, 1FP1-12, 1FP1-7Wang Tiancheng 2GP1-3Wang Wei 2EP6-8Wang Weimin 2EP5-7Wang Xiaorong 2AO-4, 3AP2-8,

3KP1-7, 3AP2-6, 2AO-6Wang Xingzhe 4KP2-4Wang Xudong 1EP1-6, 4EP1-5,

1EP1-10, 1EP1-7Wang Yibai 3JP2-6Wang Yinshun 4GP3-1, 4GP3-2,

1EP1-2, 2EP2-4Wang Youhua 2EP1-3, 4FP1-7Wang Zheng 4DP1-6, 1DP2-7,

3EP2-6, 2EP3-5, 4IP2-2Wang Zhongwei 3HP1-2, 3HP1-3Wang Zikai 1EO2-6Watanabe Hiroaki 4AP2-2, 1AO-4Watanabe Ikuo 3AP2-7Watanabe Kazuo 3GP2-3, 2BP1-8,

2CP1-1, 4CP1-3, 1GP1-6, 2GP2-6, 4GP1-7, 2GO1-5,4GP2-5, 4GP2-7, 3CP1-1

Watanabe Takato 3EP1-10Weber Harald 2GP3-1, 3GP2-2,

1GP3-5Wegener Lutz 2BO-3Weggel Robert 4AP1-4Wei Bin 1EP2-3Wei Jing 4BP1-4, 2GO2-8Wei Sumin 3AP1-3Wei Wen 4BP2-3Weijers Hubertus 2CO-6, 4GP2-2, 1IO2-8,

2CO-8, 1IO2-1, 3HP2-7Weijun Shen 4DP1-1Weiss Elisabeth 5JO-6Weiss Klaus-Peter 3KP2-2, 2GO1-4,

5JO-6, 3GP1-7Wen Cong 4DP1-2, 3CP1-3Wen Guoqiang 4DP1-2, 3CP1-3Weng Peide 1BP1-6, 1IO1-7Wenzel de Siqueira Eli 2AP1-2Wesche Rainer 4GP4-1, 2BO-5,

2BP1-3, 1BP2-6, 3HP2-3, 4BP1-7Wessel W.A.J. 4GO1-2, 1GP1-1Westenfelder Sascha 5JO-6, 3GP1-7Wiegers Stef 4CP1-4, 4GP4-4Wiik Jan 2HP2-7Will Christina 4AP2-3, 1AP3-3Williams Lloyd 2AO-3Wilson Martin PT2-1Winkler Alexander 1BP1-2, 4HO2-5Winkler Josef 3DP1-6Winkler Martin 4AP2-3, 3AP3-7Witte Holger 3AP1-2Wojtasiewicz Grzegorz 2EP1-2, 2EP1-

7, 2EP4-4Wolfus Yeoshua 2EP4-3Won M. S. 2GP2-8, 2IP3-4Wone Michel 3KP2-6Wong Terence 2GO1-7, 3GP3-5Woo I. S. 1HP1-10, 3BP2-6, 2IP2-3Wosnitza Joachim 2CO-7Wu Anbo 2GP3-10Wu Cheng 2GP3-5

Wu Diyun 2EP3-4Wu Jiefeng 4BP2-3Wu Li 3EP2-7Wu Songtao 4GP3-4Wu Wei 4KP1-10Wu Weiyue 2BP2-3, 4BP1-4,

2GO2-8, 4BP2-3Wu Xin 3EP3-5Wu Yingzhi 2IP1-9Wustmann Bernd 2CO-7

XXi Weibin 2GP3-6, 4KP2-6Xia Dong 3DP1-1Xia Zhengcai 1HP2-4, 4KP1-8Xiao Chengju 1GP2-4Xiao Houxiu 4GO2-7,

4HP1-3Xiao Liye 1EO2-5, 1EO1-2,

3GP3-4, 1EO2-6, 1EP2-5Xie Jianfeng 2HP2-9, 3KP2-8,

2HP2-10Xie Kan 3JP2-2,

3JP2-7Xin Canjie 4KP2-4Xin Yan 4GP2-2Xu Aixia 4GP2-2, 1IO2-1,

2CO-8Xu Fengyu 1HP1-6, 1HP2-7Xu Guizhi 3DP1-2Xu Jieping 2DP1-6, 4KP2-9Xu Joseph 2AP3-3Xu Leven 2AP2-4, 2AP2-5Xu Longya 2EP6-1, 4EP2-1Xu Minfeng 2DO-3Xu Qingjin 3AP2-1,

4AO-6, 1GP3-3Xu Xi 3EP3-5, 1EO1-2, 1EO2-6Xu Yuanyuan 1FP1-12Xu Yun 2HP2-1, 2HP2-4Xu Zhihan 1CP1-1

YY. B. Chang 1HP1-10Y. M. Park 1HP1-10, 2IP2-3Yabuno Ryohei 1LP1-2Yagai Tsuyoshi 1BP2-2, 1BP2-3,

1BP2-7Yagi Masashi 1EP1-7, 4EP1-5Yaguchi Hiroharu 1HP2-2Yahata Kazuhisa 4AP2-2, 1AO-4Yamada Masako 1AP2-7Yamada Ryuji 2AO-1, 1GP3-2, 5IO-7,

1AO-6, 1GP3-8Yamada Yutaka 2GP2-7,

2EP6-5Yamamoto Akira 4AO-6, 4GP4-3, 1GP3-

3, 3AP2-1, 4AP1-2Yamamoto Akiyasu 3JP1-9Yamanaka Atsuhiko 1IP2-1,

1HP2-1Yamanoi Yutaka 4AP2-1, 1AO-4,

4AP2-2Yamaoka Hiroshi 4AP1-2Yamashita Atsushi 1BO-8Yamashita Satoru 2AP2-3Yamauchi Kunihito 1BP1-3Yan Guo 2GP1-3Yan Lingxiao 2GP1-3Yan Luguang 3IP1-2, 2FP1-3Yan Weili 3DP1-2


Yanagi Nagato 4HO1-4Yanagisawa Yoshinori 1IP1-3, 1IO2-5,

1IP2-3Yang Bin 1EP2-1Yang Byeong-Mo 3EP3-6, 1EP5-6,

3EP1-7, 1EO2-3Yang C.K. 1AP2-4Yang Chang-Seob 4IP1-5Yang Chih-Sheng 4IP1-7Yang Dong Gyu 1IP1-4, 1IP1-5, 1IP1-6,

1IP1-9, 4HP1-7, 1IP2-6Yang Hyung-Suk 1EP1-5Yang Jianjun 3AP1-3Yang Jie 3GP3-3Yang Kai 1EP4-1, 1LP1-13, 1LP1-9Yang Lijun 3JP2-6Yang Qingxin 4IP1-10, 4IP2-6Yang Rui 2HP2-1Yang Seong Eun 3EP3-9Yang Seung-Eun 4EP3-2, 1EP5-5Yang Shiyou 2EP6-10, 1EP2-7Yang Wen Hui 4DP1-6, 1DP2-7Yang Wenjiang 3JP1-7, 4IP1-9Yang Wenrong 4IP1-10, 4IP2-6Yang Xiaoguang 4IP1-4, 3IP2-3, 2EP7-3Yang Yang 3AP3-4Yang Ye 4EP2-8Yao Hongjuan 2IP1-6Yao Qinggao 2DP1-1Yao Weichao 4DP1-7Ye Changqing 1FP1-7Ye Liyang 1IO2-2Ye S 4GP2-4, 4GP2-8Yen Fei 2EP6-4, 1EP4-5Yeom Han-Kil 1EO2-3Yeshurun Yosef 2EP4-3Yi Bin 3BP1-3Yi Kyung-Pyo 1EP2-6Yildiz Eyub 4CP1-2Yim Seong-Woo 3EP3-9,

4EP3-2, 1EP5-5Yin B.G 4KP1-7, 3KP1-3Yin Lixin 4AP1-5, 3HP2-9, 4HO1-6Ying Li 3EP3-2, 1EO1-7Yokoyama Kazuya 4FP1-1Yonekawa Hirofumi 1BP1-10,

3BP2-6, 2BP1-6Yoon J. H. 2IP3-4Yoon Jae-Young 2EP2-1, 3EP3-6Yoon Moohyun 2DP1-8Yoon Yong Soo 1FP1-4, 3CP1-7,

1FP1-3Yoshida Kiyoshi 4BP1-1, 1BP2-1,

2BP1-2, 1BO-3, 1BP1-3Yoshida Kyohei 2AP3-5Yoshida Makoto 4GP4-7Yoshida Yutaka 2EP6-5Yoshikawa Masaaki 2EP6-2Yoshikawa Masatoshi 1BO-8, 2BO-7,

4BP2-2Yoshimi Akihiro 2AP2-3Yoshimoto Masahiro 3AP2-7Yoshioka Tamaki 2AP2-3Yoshiyuki Takeshi 5JO-7, 3AP2-7, 4JP2-7You Jang-Yeol 1EP3-9You Xiaofei 4DP1-6Yu In-Keun 3IP2-2, 2EP2-6,

4EP2-4, 2EP2-8, 4EP2-6Yu Kexun 3BP1-3Yu Miao 4AP1-1, 4AP1-3Yu Min 2GP3-4Yu Seung-Duck 4EP3-2, 3EP3-9,

1EP5-5Yu Wu 1GP1-2, 4GP4-2, 2BP1-3,

4GO1-7, 1GP1-9, 1IO1-7, 4GO1-1Yu Xiaojiang 4JP1-9Yu Xiaowu 4BP1-4, 2GO2-8Yu Y.T. 3CP1-2Yu Yunjia 3GP3-4Yuan Chunyan 1HP1-4Yuan Ping 1AP3-6Yuan Weijia 3EP1-5, 2EP6-6,

2EP6-8Yuhara Takuro 1HP2-1Yuming Tao 2GO2-8, 2GP3-6

ZZaitsu Kyoji 4GO1-6Zaleski Andrzej 2GO1-3, 2GP2-3,

2GP2-5Zangenberg Nikolaj 4JP2-8Zani Louis 1IO1-6, 3BP2-2,

1BO-3, 1BO-4Zanino Roberto 3BP2-3, 4HO2-1,

3HP2-4, 3BP2-5Zapretilina Elena 3IP1-1Zbasnik Jon 2AP2-4, 2AP2-5Zdenek Janu 4HP1-9Zeller Al 1AO-7, 3AP1-5, 4AP2-7,

1AP2-3Zeng Rong 3JP1-4Zhang Bo 4KP1-8, 4IP1-4,

3IP2-3, 2EP7-3Zhang Dong 2EP2-3, 1EO2-5,

1EO1-2, 1EO2-6Zhang Fengyuan 1EO2-5, 1EO1-2,

1EO2-6Zhang Guanying 4IP1-4, 3IP2-3, 2EP7-3Zhang Guomin 3EP3-5, 1EO1-2,

4GP1-4, 3GP3-4, 1EP2-5Zhang Guoqing 4DP1-7Zhang Hongen 1EO2-5Zhang Hongjie 3IP2-9, 3IP2-10Zhang Huanhuan 1EP1-2Zhang Hui Yuan 1EP1-2, 2EP2-4,

1EP1-8Zhang Jingye 1EO1-2, 1EP2-2,

2EP4-2, 1EO2-6, 1EP2-5Zhang Miao 2AP1-5Zhang Min 4EP2-2, 2EP6-8Zhang Ming 3BP1-3Zhang Peng 2GP3-10Zhang Ping 2GP3-6Zhang Pingxiang 2GP1-3, 1GP2-2Zhang Puzhuo 3JP2-6Zhang Shanwen 3HP1-2Zhang Shuai 3DP1-2Zhang Tao 2GP3-10Zhang Tianjue 2IP1-6, 3AP1-3, 3AP1-6Zhang Wei 4IP1-6Zhang Wenfeng 2EP1-3Zhang Xianping 2GP2-6Zhang Xiao Bing 1DP2-7Zhang Xiaojie 4IP1-10, 4IP2-6Zhang Xiaoying 3AP3-3Zhang Ying 2GP3-6Zhang Youzhu 4GO1-3Zhang Yun 2GO1-7Zhang Z 4KP1-7, 3KP1-3Zhang Zhen 4IP2-2, 3EP2-6, 2EP3-5Zhang Zhenyu 4DP1-1Zhang Zhifeng 3EP3-5, 1EO2-5,

1EO1-2, 1EO2-6

Zhang Zhiyu 4FO-5, 4JP2-1Zhao Baozhi 3IP2-1, 1HP2-3Zhao Hongwei 4KP2-4Zhao Ling 4DP1-7Zhao Wenxiang 1LP1-6, 1EP4-3Zhao Yan 2GP3-10Zhao Yanpu 4IP3-2Zhao Zhigang 3IP1-6, 3IP1-7, 1LP1-11Zheng Jun 2EP6-4, 1FP1-12,

2FP1-4, 1FP1-9, 1FP1-7Zheng Shijun 2EP6-4, 1EP4-5Zheng Yibo 1EP1-2, 1EP1-3,

2EP2-4Zherlitsyn Sergei 2CO-7Zhong Jin 1LP1-5, 2EP3-3Zhong Junqing 2IP1-6, 3AP1-3,

3AP1-6Zhou Chao 1GP1-5Zhou Jiangxin 1AP3-2, 4KP1-7Zhou Libing 1LP1-12Zhou Tingzhi 3HP1-1, 3HP1-3,

3HP1-4, 3HP1-5, 3HP1-6, 3HP1-10Zhou Zhongyu 3IP3-5Zhou Zibo 4BP1-4, 2GO2-8Zhu Haisheng 2GP3-6Zhu Jiahui 1EP2-1, 2EP3-6Zhu Sihua 2GP1-3Zhu Yingshun 2IP1-9Zhu Zhiqin 1EO2-5, 1EO1-2,

1EO2-6Zhu Zian 4DP1-7, 3FP1-4, 3FP1-6Zhuang Ge 3BP1-3Zito Marco 2HP1-1Zlobin A. V. 4AP1-1, 2AO-1,

1GP3-2, 4AP1-3, 5JO-4, 4AP2-4, 3AP2-5, 2AO-4, 3AP2-8, 2AO-6,

4AP2-8, 4AP2-9, 4JP2-6Zohdi Tarek 5IO-2Zöller Hilmar 4BP2-5Zong Zhanguo 1AP1-5Zubko Vasily 3AP3-1, 4JP1-1,

1AP3-1



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