MT25 Conference Guide

1
WELCOME
On behalf of the Organizing and Program Committees, it is a great
pleasure for us warmly welcoming you at the 25th International
Conference on Magnet Technology in 2017, from August 27 to
September 1 in Amsterdam, the Netherlands.
It is the first time that a Magnet Technology conference is hosted
in the Netherlands and for this reason, we have chosen the capital
city of Amsterdam and its RAI Congress Center, a natural and
perfect choice.
The conference organization is a joint effort of the Applied Super-
conductivity and Cryogenics Laboratory at the University of
Twente and the High Field Magnet Laboratory of the Radboud
University Nijmegen.
The conference covers plenary, oral and poster sessions and an
exhibition of 49 industrial partners from Monday until Thursday.
You are warmly invited to join us on Sunday for the Welcome re-
ception, on Tuesday for the Exhibitor’s reception, and finally for
the Conference Banquet on Thursday evening in the National
Maritime Museum. Technical visits to five laboratories on Friday
conclude the program.
During the Conference opening session the IEEE Council on Su-
perconductivity awards the ‘Award for Continuing and Significant
Contributions in the Field of Large-Scale Applications of Super-
conductivity’, the ‘Max Swerdlow Award for Sustained Service to
the Applied Superconductivity Community’ and finally the ‘Gradu-
ate Study Fellowship in Applied Superconductivity’.
In addition, MT25 Best Poster Awards are presented during the
conference closing session on Thursday.
We wish you all a great stay in the Netherlands and we truly hope
for an inspiring meeting and pleasant week together.
On behalf of all organizers,
Herman ten Kate
Andries den Ouden

2
Sponsors
The MT25 Organizers express their appreciation to the following
sponsors whose contributions significantly enhance the confer-
ence.
Gold
Silver

3
Table of Contents
Quick reference………………………………………….. 5
Amsterdam cultural highlights and entertainment …… 7
Awards…………………………………………………..... 7
Social events………………………………………….….. 7
Author information……………………………………..… 11
Information for Poster presenters…………….11
Information for Oral presenters…………….…11
Information for Paper submission……….……11
Technical visits on Friday……………………………….. 12
Conference organization…………………………….….. 16
Editors IEEE-TAS for the MT25 Special Issue……….. 18
Exhibitors…………………..………………………………18
Floorplan………………………………………………….. 43
Technical Program………………………………….…… 45
Monday program….…………………………… 45
Tuesday program….………………………….. 80
Wednesday program.……………………….… 116
Thursday program…….………………………. 152
Friday program………….…………………….. 183
Author list……………………………………….....…... 184

5
Quick reference
Conference website and e-mail address
http://www.mt-25.org and info@mt-25.org
Venue
RAI Convention Amsterdam
Europaplein 2-22, 1078 GZ Amsterdam, the Netherlands.
Registration & information desk
On Sunday the registration desk is in the Elicium building, en-
trance D. The rest of the week it is located at the entrance of the
conference center, entrance G.
Opening hours:
 on Sunday: 16.00-20.15 (Elicium building)
 on Monday through Thursday: 08.00-18.30.
Badge
Upon registration, participants receive a conference badge. For
safety and security reasons please wear your badge visibly dur-
ing all conference events.
Publication office
The Conference Publication Office is in room G104.
The opening hours of the Publication Office are:
 Monday August 28 08:00-18:00
 Tuesday August 29 08:00-18:00
 Wednesday August 30 08:00-18:00
 Thursday August 31 08:00-17:00
The deadline for paper submission is:
Tuesday August 29, 2017 (24:00 CET).
Speaker’s preparation room
The speaker’s preparation room is G104 (except on Sunday). The
office is open for previewing and uploading your presentations in
.ppt or .pdf format. The opening hours are the same as for the
Publication office.
Message board
A message board is located near to the registration desk at en-
trance of the conference center. It is used for conference an-
nouncements, ad-hoc meeting calls, personal messages, and job
postings.
Access to the WIFI network
Network: CONGRESSWIFI Password: congress@rai

7
Parking
There are plenty paid car parks at RAI-Amsterdam.
Dutch Railways (NS) train journey planner
http://www.ns.nl
Emergencies
Dial 112 for Police, Fire Brigade and Medical Service.
Amsterdam cultural highlights and entertainment
http://www.iamsterdam.com/en
See also our conference website:
http://mt-25.org/venue/touristic tips.html
Awards
The following awards are presented at the conference opening
session on the Monday morning at 9:00:
The IEEE Award for Continuing and Significant Contributions in
the Field of Applied Superconductivity, Large Scale, will be pre-
sented to Evgeny Yu. Klimenko.
The IEEE Max Swerdlow Award for Sustainable Service to the
Applied Superconductivity Community is presented to Kenichi
Sato from the Japan Science and technology Agency.
The IEEE-CSC Graduate Study Fellowship in Applied Super-con-
ductivity is presented to Federico Scurti from the North Carolina
State University, USA.
The MT25 Best Poster Awards, selected during the conference
are presented in the Conference Closing session.
Social events
Welcome Reception
The Welcome reception will take place on Sunday August 27 in
the Elicium Ballroom at the RAI Convention Center, entrance D.
The reception starts at 19:00 and ends at 20:30. Served are a
buffet type meal and free drinks.
Exhibitors Reception
On Tuesday August 29, the exhibitors host a reception that will
take place in the conference exhibition area. The reception starts
at 18:45 and finishes at 20:15. Served are a buffet type meal and
free drinks. Enjoy the excitement of the MT25’s exhibition while
socializing with exhibitors and other conference participants.

9
Conference Banquet
The conference banquet is organized at the National Maritime
Museum in Amsterdam, street address Kattenburgerplein 1, 1018
KK Amsterdam.
The banquet starts at 19:30 and finishes at 22:00.
Especially for this occasion, we have arranged a boat tour through
the historic canals of Amsterdam for about one hour to bring you
from the RAI Convention Center to the Maritime Museum. Depar-
ture is starting at 18:00 from the backside of the conference cen-
ter.
On your way back, you may wish to walk and enjoy the cities se-
crets downtown, or use directly the Metro or the Tram to travel
back to your hotel, both within few minutes waling distance from
the museum.
Amsterdam is a bustling city. Few cities in the world have a his-
toric center as large and untouched as Amsterdam and you will
find only a few cities where water is as predominant as it is in
Amsterdam.
While gliding through the old center of the city, guides will tell you
more about the historical highlights and the beauty of the city of
Amsterdam.
The National Maritime Museum in Amsterdam shows you how the
sea has shaped our Dutch culture. Stimulating, interactive exhibi-
tions allow visitors to explore 500 years of maritime history.
The National Maritime Museum is housed in ’s Lands Zee-maga-
zijn (the Arsenal). This historic building dates from 1656 and was
designed by Daniel Stalpaert as a storehouse for the Admiralty of
Amsterdam.
The Arsenal was built in the Golden Age, when Amsterdam was
the largest port and market place in the world. Goods from all over
the world could be bought right here.
Today, over 350 years later, the Arsenal remains an imposing and
impressive building with a great deal of character. It exudes his-
tory, making it the perfect location for The National Maritime Mu-
seum housed here since 1973.

11
Author information
Information for Poster presentations
Posters are on display for a full day. You, as presenter shall be
present for explanation during the scheduled poster session time
of about 2 hours, see the technical program for details.
All posters are made available online through the conference in-
dico site. If you have not yet uploaded your poster please bring
the pdf of your poster on a USB stick to the Publication Office (the
opening hours are shown above).
All poster boards will be provided with an order number. In the
Technical Program section you can find your poster ID number
and the poster board number. The assigned poster ID number
should be included in each poster presentation.
Posters HANG-UP and TAKE-DOWN times:
 Posters shall be hang up on the poster boards between 8:00-
10:30, preferably before the plenary session starts.
 Posters shall be removed from the board between 17:30 and
18:30. Posters left behind after 18:30 will be disposed (on
Thursday before 17:30).
 Please remove your poster promptly. Posters are fixed to the
board with tape, which is provided. Do not use other tape.
Information for Oral presentations
Regular Oral Presentations are 15 minutes in total, which includes
3 minutes for questions. Invited Orals are 30 minutes, including 5
minutes for discussion.
Please arrive at least 10 minutes before the session start and in-
troduce yourself to the session chairs.
Oral presentations in MS PowerPoint 2013 fomat or in pdf format
shall be submitted the day prior to the presentation at the Publi-
cations Office (opening hours are shown above).
All presentations are available online for reading and download
through the conference indico site. If you have not yet uploaded
your presentation, bring the pdf of your presentation on a USB
stick to the Publication Office, room G104.
Oral presentations for the Monday sessions can be submitted at
a temporary Publication Desk next to the registration desk in the
Elicium building.
Deadline for Paper submission
The deadline for paper submission is Tuesday August 29, 2017
(24:00 CET).

12
Technical visits on the Friday
All technical visits start at 8:30 from parking lot P6, at the south-
east corner of the RAI (see map on page 14).
If you need to catch a plane afterwards, please note that it takes
about 30 minutes to get from RAI to Schiphol Airport.
Visit 1
The Dutch National Institute for Subatomic Physics, NIKHEF
and Science Park in Amsterdam
A high-tech tour of the NIKHEF facilities with specific focus on the
new Einstein Telescope project, low-vibration interferometry sys-
tems and the design and assembly of particle detectors.
 08:30 Departure from RAI at parking P6
 12:30 Return at RAI parking P6

13
Visit 2
The European Space Research and Technology Center ES-
TEC, in Noordwijk, the Netherlands
This visit to ESA’s main technology department includes a tour of
the Erasmus Space Exhibition Center, the Planetary Robotics La-
boratory and Virtual Reality Theater.
 08:30 Departure from RAI parking P6
Visit 3
Philips Healthcare, Best, the Netherlands, and
the Dutch Institute for Fundamental Energy Research DIF-
FER, Eindhoven
This excursion to the Eindhoven region combines first a tour of
the fusion research facilities at DIFFER including the supercon-
ducting magnet system Magnum used for plasma-wall interaction
studies; and second, a visit of the Philips Healthcare R&D center
in Best, focusing on the design, testing, training on and demon-
stration of MRI systems
Visit 4
The High Field Magnet Laboratory, HFML
at the Radboud University, Nijmegen, the Netherlands
The Radboud University in Nijmegen is home of the High Field
Magnet Laboratory and the adjacent FELIX Laboratory equipped
with a series of infrared free-electron lasers. Both laboratories are
included in the tour.
Visit 5
The Applied Superconductivity and Cryogenics Labs, and
the MESA+ Nano-Technology Institute at the University of
Twente, Enschede, the Netherlands
At the University of Twente, a tour of the Twente Cryogenic and
Applied Superconductivity Laboratories is combined with a visit
of the Institute for Nanotechnology MESA+
 18:30 Return at RAI parking P

15
Busses for the technical visits
will park here and leave at 8:30.

16
Conference organization
MT International Organizing Committee
Name Country Institute
Mark Bird USA NHMFL
Pierluigi Bruzzone Switzerland CRPP
Haigun Lee Korea Korea University
Luis Garcia-Tabares Spain CIEMAT
Fedor Gömöry Slovakia SAS
Hitoshi Kitaguchi Japan NIMS
Ziad Melhem UK Oxford Instruments
Antti Stenvall Finland TUT
Neil Mitchell ITER
Riccardo Musenich Italy INFN
Mathias Noe Germany KIT
Ruediger Picker Canada TRIUMF
Subrata Pradhan India IPR
Lucio Rossi CERN
Bruce Strauss IEEE-CSC
Herman ten Kate The Netherlands University of Twente
Pierre Vedrine France CEA
Vitaly Vyotsky Russia VNIIKP
Liye Xiao China IEE
Ex-officio members:
Herman ten Kate LOC, Conference Chairman
Andries den Ouden LOC, Conference Co-chairman
Local Organizing Committee
Conference Chairman Herman ten Kate
Conference Co-chairman Andries den Ouden
Program Chairman Arjan Verweij (CERN)
Resources Manager Jos Perenboom
Exhibition Manager Arend Nijhuis
Technical Tours Marc Dhallé
Oral Sessions Manager Cris Vermeer
Poster Sessions Manager Erik Krooshoop
Publication Office Srinivas Vanapalli
Technical Systems Sander Wessel, Gideon Laureijs
Website and Informatics Jaap Kosse
Indico Services Herman ten Kate, Arjan Verweij
Conference Registration Jacqueline van der Lek - Rohof
IEEE-TAS Editor in Chief Luisa Chiesa (Tufts University)

17
Scientific Program Committee
Name Country Institute
Arjan Verweij (Chair) Switzerland CERN
Giorgio Ambrosio USA FNAL
Naoyuki Amemiya Japan Kyoto University
Kathleen Amm USA GE
Amalia Ballarino Switzerland CERN
Pierluigi Bruzzone Switzerland CRPP
Luisa Chiesa USA Tufts University
Guram Chlachidze USA FNAL
Arnaud Devred France ITER
Marc Dhallé Netherlands Twente University
Pasquale Fabbricatore Italy INFN
Paolo Ferracin Switzerland CERN
Fedor Gömöry Slovakia SAS
Yury Ilin France ITER
Anna Kario Germany KIT
Glyn Kirby Switzerland CERN
Takanobu Kiss Japan Kyushu University
Haigun Lee South Korea Korea University
Cesar Luongo USA Jefferson Lab
Tatsushi Nakamoto Japan KEK
Mathias Noe Germany KIT
Toru Ogitsu Japan KEK
Michael Parizh USA GE
Subrata Pradhan India IPR
Gianluca Sabbi USA LBNL
Fernando Toral Spain CIEMAT
Pierre Vedrine France CEA Saclay
Vitaly Vysotsky Russia VNIKP
Qiuliang Wang China CAS
Huub Weijers USA NHMFL
Liye Xiao China CAS
Ex-officio members:
Herman ten Kate LOC, Conference Chairman
Andries den Ouden LOC, Conference Co-chairman

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Editors IEEE-TAS for the MT25 Special Issue
MT 25 Special Issue Editor-in-Chief: Luisa Chiesa
Lead Editors:
Naoyuki Amemiya, Juan Bascuñàn, Lance Cooley, Michael
Green, Reinhard Heller, Sasha Ishmael, Michael Parizh, Minwon
Park, Alexander Polasek, Carmine Senatore, Ezio Todesco, Vitali
Vysotsky, and Al Zeller.
Technical Editors:
Minchul Ahn, Mark Ainslie, Cristian Boffo, Pierluigi Bruzzone,
Chris Bumby, Nikolay Bykovsky, Ahmet Cansiz, Miquel Carrera,
Daniel Cheng, Shailendra Chouhan, Tim Coombs, Valentina
Corato, Gianluca De Marzi, Wescley de Sousa, Iain Dixon,
Stefania Farinon, Sandor Feher, Yuting Gao, Luis Garcia-
Tabares Rodriguez, Andrey Gavrilin, Francesco Grilli, XingLong
Guo, Seungyong Hahn, William Hassenzahl, Trey Holik, Simon
Hopkins, Lei Huang, Yuri Ilin, Susana Izquierdo Bermudez, Brian
Johnson, Hom Kandel, Anna Kario, Pei Li, Quan Li, Chengcheng
Liu, Jose Lopez, Clement Lorin, Goran Majkic, Vittorio Marinozzi,
Arkadiy Matsekh, Dustin McRae, James Meen, Matthias Mentink,
Nenad Mijatovic, João Murta-Pina, Luigi Muzzi, Naoko Naka-
mura, Shinichi Nomura, Thomas Paintereng Pan, Rüdiger Picker,
Liudmila Potanina, Timing Qu, Lionel Quettier, Loïc Quéval, Re-
nuka Rajput-Ghoshal Renuka, Etienne Rochepault, Igor Rodin,
GianLuca Sabbi, Tiina Salmi, Santiago Sanz, Xabier Sarasola
Martin, Pierre Schnizer, Kamil Sedlak, Zonghai Song, Xiaowei
Song, Yoshikazu Takahashi, Frederic Trillaud, Melanie Turenne,
John Voccio, Michal Vojenciak, Qiuliang Wang, Xiaorong Wang,
Rainer Wesche, Michael Wolf, Liye Xiao, Xingchen Xu, Yuan
Yang, Weijia Yuan, Min Zhang, Zhenyu Zhang, and Jiahui Zhu
(list as of 18/8/2017).
Exhibitors
Exhibition schedule
Exhibit show hours
 Monday, August 28, 2017 08:00 – 18:30
 Tuesday, August 29, 2017 09:00 – 20:15
 Wednesday, August 30, 2017 09:00 – 18:30
 Thursday, August 31, 2017 09:00 – 18:00
Exhibitor Reception
 Tuesday, August 29, 2017 18:45 - 20:15

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Exhibitors
Booth 1 CAEN ELS s.r.l.
Address: SS 14 km 163.5 - 34149 Basovizza (Trieste) - Italy
+39403756610
info@caenels.com
www.caenels.com
CAEN ELS is a leading
company in power supply
systems and precision current measurement solutions bringing high-
end research technology into industrial applications. The catalogue
and custom-designed high-precision digital (unipolar-bipolar) power
supplies as well as the DC current transducers and complete meas-
urement / calibration systems represent the state-of-the-art devices
for magnet applications.
Booth 2 Supercon, Inc.
830 Boston Turnpike,Shrewsbury, MA 01545,USA
+15088420174
dfrost@supercon-
wire.com
SUPERCON has been manufacturing low temperature NbTi and
Nb3Sn superconductors as standard and specially designed wire and
cable for over 55 years. Many of Supercon’s standard conductors,
from 0.025 to 2.0mm diameter, are available from stock A wide variety
of custom composite metal wires is also available. We can deliver re-
search quantities to OEM require-ments from stock.
Booth 3 Japan Superconductor Technology, Inc
5-9-12 Kitashinagawa, Shinagawa-ku, Tokyo 141-8688, Japan
+81357395210
fukumoto.yoshito@kobelco.com
www.jastec-inc.com
Japan Superconductor
Technology, Inc. (JA-
STEC),
is a manufacturer of superconducting wire/magnet in Japan. We have
been contributing to a variety of application fields; life science, medi-
cal, energy and other science & industries through our cutting-edge
technologies.
- Wire: Our high-performance NbTi and Nb3Sn wires are used
for NMR/MRI as well as ITER TF/CS.
- Magnet: We supply high-field NMR magnets as well as special
MRI magnets. We have also rich experience in cryogen-free mag-
nets for academic and industrial applications.

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Booth 4 THEVA Dünnschichttechnik GmbH
Rote-Kreuz-Straße 8,85737 Ismaning,Germany
+49899233460
info@theva.com
www.theva.com
THEVA stands for reliable and highest quality superconducting wire
production. Various types of THEVA Pro-Line high temperature su-
perconductor wire can be delivered in lengths up to several hundreds
of meters.
Applications range from high current cables to high-end research
magnets. Additionally, we design and deliver customized HTS coils.
TapestarTM
, our powerful characterization tool for HTS tapes, is al-
ready used all over the world.
Booth 5 Metrolab Technology
thabuis@metrolab.com
www.metrolab.com
Metrolab Technology SA is the global market leader for precision
magnetometers, used to measure high-intensity magnetic fields to a
very high degree of precision. Over the past 30 years, we have won
the trust of MRI manufacturers and physics laboratories across the
world.
Our company culture is one of solutions: more important than the
product, our top priority is to help you effectively measure magnetic
fields. We invest approximately 20% of our gross sales in R&D.
Booth 6 Sunpower Inc.
Business Development, 2005 East State Street, Athens, Ohio 45701
www.sunpower-
inc.com
+17405903063
Sunpower’s CryoTel®
cryocoolers are the re-
sult of over 40 years of
technical leadership,
innovation, and evolution in free-piston Stirling technology. Our cryo-
coolers are cost effective, exceptionally quiet, low in vibration, and
extremely efficient.
Since they require no maintenance, our customers can expect many
years of high-performance, trouble-free cooling.
For temperature requirements between 40K and 200K there is no bet-
ter alternative with respect to small size, efficient operation, and price.

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Booth 7 RUAG Space GmbH
Stachegasse 16, 1120, Vienna, Austria
+431801993070
cryo.at.space@ruag.com
www.ruag.com/thermal
RUAG Space is the larg-
est supplier of space prod-
ucts and related ground
support equipment in Aus-
tria, focusing on electron-
ics, mechanisms and thermal insulation. The company of 240 employ-
ees belongs to the Swiss RUAG Holding. The state-of-the art equip-
ment comprises leading edge design and analyses tools, clean rooms
and automated cutting machines. The "Coolcat" line of high quality
cryogenic Multi-layer Insulation is efficiently produced at a large in-
dustrial scale.
Booth 8 Stangenes Industries, Inc.
1052 East Meadow Circle, Palo Alto, CA 94303
+16504930814
info@stangenes.com
www.stangenes.com
For over 43 years,
Stangenes Industries has been manufacturing critical components for
government, industry and research. As an OEM supplier to major
medical equipment manufactures we have developed a reputation for
quality and reliability at globally competitive prices. The foremost
particle accelerator facilities and research labs in the world rely on
Stangenes Industries for innovation and excellence.
• Pulse Transformers
• Magnets
• Magnetic Components
• Modulators
• Diagnostics.
Booth 9 CST-Computer Simulation Technology AG
AG, Bad Nauheimer Strasse 19, 64289 Darmstadt, Germany
+49615173030
info@cst.com
www.cst.com
CST develops CST
STUDIO SUITE, a market-leading package of high-performance soft-
ware for the simulation of EM fields in all frequency bands. CST solu-
tions are used by leading companies across many industries, includ-
ing aerospace, automotive, defense, electronics, healthcare and tele-
communications. CST is part of SIMULIA, a Dassault Systèmes
brand. www.cst.com

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Booth 10 Luvata
www.mmluvata.com
Luvata Special Products
have factories on 3 conti-
nents producing special
copper and low-tempera-
ture superconducting (LTS) wires, cables and hollow conductors for
magnet applications. The products are generally designed with spe-
cial application in mind and their features vary widely among the dif-
ferent products offerings. Wires are produced for all applications in
the LTS wire industry. Products include monolithic wires in round and
rectangular shape as well as Wire-in-channel or cable-in-channel in-
tegrated conductors. Please contact us with your specific needs.
Booth 11 Western Superconducting Technologies
No.12, Mingguang Road, Xi’an, Shaanxi, China, 710018
+86-29-89616812,
wires@c-wst.com,
www.wstitanium.com, www.c-wst.com
Western Superconducting Technologies Co., Ltd. (WST) is located in
Xi'an, the capital city of Shaanxi Province, with a registered capital of
53 million USD on 28 Feb, 2003. WST is one of the biggest research
and development centre for superconductor and titanium also related
materials in China, We try our best to explore and develop domestic &
oversea markets. The aim we struggled is to create WST into a Hi-
Tech industrial corporation with the advanced technology, talented em-
ployees, and the best equipment.
Booth 12 General Atomics
General Atomics, 3550 General Atomics Ct., San Diego, CA 92121
+1 858-455-3000
John.Smith@ga.com
www.ga.com/ga-iter-energy-program
General Atomics (GA) is a world leader in electromagnetics and su-
perconducting magnet technology. GA is currently fabricating power-
ful pulsed superconducting magnet modules for ITER, an unprece-
dented international tokamak facility that aims to demonstrate the
commercial feasibility of nuclear fusion. When completely assembled,
the ITER Central Solenoid will have a peak field of 13.1 T with 5.5 GJ
of stored energy. Magnet research at GA has led to discoveries and

23
spinoff technologies in medical diagnostics, cryogenics, energy stor-
age, transportation, semiconductors, and defense applications. GA
leverages its research for the U.S. government and private industry,
delivering solutions ranging from next-generation nuclear reactors to
remotely operated aircraft and electromagnetic systems including the
EMALs systems to electro-magnetically launch airplanes from aircraft
carriers
Booth 13 Dutch Scientific and Big Science
www.bigscience.nl
The ILO-Network, part of
Dutch Scientific, is a collab-
oration between Dutch In-
dustrial Liaison Officers
(ILOs) with the aim of liais-
ing between Dutch companies and Science-driven projects; offering
industry greater continuity in challenging high-value work; enabling
science to gain easier access to highly qualified companies; enabling
SMEs with less international experience in conducting business to be-
come more closely involved in Big Science Projects.
The ILO-net is financially supported by NWO and has proven its im-
portance for connecting SMEs with science projects over the last
years. At the Dutch Scientific exhibition stand you will find several
Dutch companies offering unique expertise on technologically chal-
lenging subjects. Al latest list of Dutch firms involved in Big Science
projects can be found with their profile in the online brochure.
Booth 14 DEMACO HOLLAND bv.
Oester 2, 1723 HW, Noord-Scharwoude, the Netherlands.
rd@demaco.nl
www.demaco.nl
Demaco is a mid-sized
company specialized in the field of cryogenic technology and is re-
sponsible for the infrastructure to transport liquefied gases from A to
B. Demaco manufactures systems with measure and control technol-
ogies for cryogenic applications. All cryogenic systems are double-
walled where high vacuum is applied as ultimate isolator. These cry-
ogenic systems enable the transportation and conditioning of liquid
gases.
Since 1985, Demaco has been a supplier for producers of industrial
gases and end users of liquid gas. As we are a total integrated com-
pany, we are able to employ our expertise from initial concept, through
engineering and manufacturing, right up to installation. Examples in-
clude the food industry, medical companies, as well as space re-
search centers and scientific institutes. Demaco is part of the top 6
companies in cryogenic technology world-wide.

24
Booth 15 Hyper Tech Research, Inc.
539 Industrial Mile Rd, Columbus, OH 43228, USA
mtomsic@hypertechresearch.com
www.hypertechresearch.com
614-481-8050 Ext. 2432
Hyper Tech is a leading manufac-
turer of MgB2 and Nb3Sn super-
conductor wires. We have expe-
rience designing, manufacturing and testing coils using NbTi, Nb3Sn,
MgB2, Nb3Sn, BSCCO, and (Re)BCO superconductors. Hyper Tech
is developing small diameter high amperage Cable-in Conduits (CIC)
for several superconducting applications, using NbTi, MgB2 and
Nb3Sn strands. We also have system design experience for devel-
oping superconducting MRIs, fault current limiters, motors, wind gen-
erators, SMES, DC and AC cable applications.
Booth 16 Babcock Noell GmbH
www.bng.bilfinger.com/en
Babcock Noell GmbH is a company of Bilfinger SE and is your partner
for magnet systems, vacuum and cryo-technology. Babcock Noell has
been working closely with large-scale research facilities for develop-
ments, prototyping up to series production. Being your partner we
have a comprehensive know-how and can develop solutions tailored
to your needs, e.g. superconducting undulators for light sources,
products for the energy market and comprehensive vacuum equip-
ment and cryostats.
Booth 17 Sumitomo ELECTRIC INDUSTRIES Ltd
http://global-sei.com; http://global-sei.com/super
DI-BSCCO, 1st Grade superconductor, is the trade mark of Sumitomo
Electric Industries (SEI). Using DI-BSCCO, researchers and manu-
factures from around the world have successfully manufactured su-
perconducting cables, magnets, motors and current lead assemblies.
Recently, SEI developed Type HT-NX, an extra high strength DI-
BSCCO, superconductor wire design that is surpassing other HTS
wires for high field magnet designs. DI-BSCCO Type G is widely used
in magnet current lead designs. DI-BSCCO-MS, is a magnet system
employing DI-BSCCO and AC and DC superconducting cable sys-
tems can be also supplied by Sumitomo Electric.

25
Booth 18 Cryogenic Ltd.
www.cryogenic.co.uk
Cryogenic Ltd leads the market in the design and manufacture of high
field measurement systems for scientific research and industrial ap-
plications.
The product range includes vibrating sample magnetometer, specific
heat measurement via AC calorimetry and relaxation methods, AC
susceptibility, resistivity and Hall Effect measurements and thermal
conductivity. These are offered as either cryogen free or low boil off
liquid helium cooled magnet systems, with fields of up 24 Tesla and
ultra-low temperatures down to 300 mK with 3He or 50 mK with a
dilution refrigerator.
Booth 19 Advanced Conductor Technologies LLC
3082 Sterling Circle, Unit B, Boulder, CO 80301, USA
www.advancedconductor.com
info@advancedconductor.com
+17204080105
Advanced Conductor Technologies CORC® technology opens the
door to new markets that require flexible, high-current density power
transmission cables and wires.
High-temperature superconducting CORC® cables and wires also
enable practical high-field magnets that operate at magnetic fields
above 20 Tesla, or at temperatures exceeding 20 Kelvin.
Booth 20 Clever Conductors BV
(no text made available for display)

26
Booth 21 Sumitomo Cryogenics
Sumitomo (SHI) Cryogenics of Europe, GmbH
Daimlerweg 5a, Darmstadt D-64293, Germany
+496151860610
contact@sumito-
mocryo.de
www.shicryogen-
ics.com
SHI Cryogenics Group, an integral part of the Precision Equipment
Division of Sumitomo Heavy Industries, Ltd., is a leading worldwide
provider of innovative cryogenic solutions to the magnet technology
industry. With offices in Asia, Europe and the United States, it has
been producing quality cryogenic equipment for over 50 years. SHI's
renowned engineering departments continue to
focus on the latest cryogenic technologies, in-
cluding innovative cryocooler, pulse tube and
shield cooler designs. In addition to our exhibit
booth, SHI’s cryocooler technology will be fea-
tured in a co-authored paper with Siemens
Magnet Technology. “Hub- and Site-cooling of
MRI magnets using a mobile cryogenic sys-
tem,” will be presented at 10:00 on Thursday,
31 August, during the Cryogenics & Auxiliary
Technologies session.
www.shicryogenics.com
Booth 22 SuperOx
http://www.superox.ru/en
SuperOx company was
founded in 2006 with a goal
to establish production of
textured high-temperature
superconductor coatings
on metal substrates – sec-
ond generation high tem-
perature superconducting tapes (2G HTS). The equipment built with
materials can change the image of the modern energy and transport
industry. As well, 2G HTS tapes enable the production of far more
efficient magnetic equipment for research and medicine.
Due to unique electric and physical properties of high temperature
superconductors, the application of 2G HTS tapes results in unique
and superior qualities of power cables, fault current limiters, trans-
formers, motors, generators, energy storage systems and magnets.
Superconducting equipment is of high power, is compact, efficient and
environment-friendly.

27
Booth 23 Salzgitter Mannesmann Stainless Tubes
Via Piò 30, 24062, Costa Volpino (BG) - Italy
+39 035 975867
m.valdiserri@smst-
tubes.com
www.smst-tubes.com
Salzgitter Mannesmann
Stainless Tubes is one
of the worldwide leading
manufacturers of seam-
less stainless steel and
nickel based alloy tubes and pipes. Our company has one of the larg-
est product portfolios in this sector and a 125 years long history that
dates back to invention of the seamless stainless steel tube. Salzgitter
Mannesmann Stainless Tubes is a qualified supplier for TF and PF
Jacket for ITER Tokamak and for JT60SA-TF.
Booth 24 Columbus Superconductors
www.columbussuperconductors.com
Columbus Superconductors SpA is a superconducting wire manufac-
turing company dedicated to MgB2–based wire production. Multifila-
mentary MgB2 conductors are produced and supplied in unit lengths
exceeding 3 Km, targeting a variety of DC and AC applications. Con-
ductors are available in different shapes (round, rectangular, tape)
and internal configuration (by number of filaments, sheath material,
twist, etc). Wires as well as components based on MgB2 can be real-
ized according to customers’ request.
Booth 25 Cryomech Inc.
Cryomech.com cryosales@cryomech.com
Cryomech, Inc. is the leader in advanced cryocooler solutions. Our
distinct product line includes over 30 different types of Gifford-
McMahon and Pulse Tube Cycle Cryo-refrigerators.
Cryomech’ s fast and open design process allows you to remain the
expert in your field of research while they manage the interface with
the cryo-refrigerator seamlessly.
Cryomech also offers a broad array of Helium Liquefiers and Recov-
ery Systems. Cryomech recently introduced Ultra-Low Vibration Cry-
ostats for operation below 4.2 K.

28
Booth 26 FURUKAWA ELECTRIC CO.LTD.
2-3, Marunouchi 2-chome, Chiyoda-ku, Tokyo, 100-8322, Japan
+81332863231
http://www.furukawa.co.jp/en/
Furukawa Electric is the pioneer in superconductivity. Compre-hensi-
veness from low-temperature superconductivity to high-temperature
superconductivity.
Booth 27 IOP Publishing
Temple Circus, Temple Way, Bristol BS1 6HG, UK
+441179297481
http://ioppublishing.org
IOP Publishing provides publications through which leading-edge sci-
entific research is distributed worldwide. Beyond our traditional jour-
nals programme, we make high-value scientific information easily ac-
cessible through an ever-evolving portfolio of books, community web-
sites, magazines, conference proceedings and a multitude of elec-
tronic services.
Booth 28 WEKA AG
Schuerlistrasse 8, CH-8344, Baeretswil, Switzerland
+41438334343
asm@weka-ag.ch
www.weka-ag.ch/en/cryogenic-components
WEKA is a Swiss SME with more than 40 years of manufacturing and
developing experience and know-how in cryogenic components be-
low 75K.
Cryogenic technologies such as space qualified components, future
energy technologies based on hydrogen, basic- , plasma- and fusion
power research projects and others are in high demand for innovative
technologies which continuously requesting new product ideas and
developments.
Our components provide optimal solutions for handling low-tempera-
ture liquefied gases under extreme operating conditions as well as for
related components.

29
Booth 29 Sigma Phi
www.sigmaphi.fr
Sigmaphi has been providing turnkey
systems and components for particle
accelerators to major research labs
and protontherapy system providers
for more than 30 years.
Our 200 highly skilled employees can design, make and measure:
- Complete particle transport beam lines, from optics to
installation and alignment
- High precision magnets : resistive, superconducting,
permanent magnet based, in vacuum
- Turnkey injection or extraction systems
- Ultra stable power supplies
- RF power solutions: Solid state amplifiers, Klystron Modulators
Booth 30 ELYTT ENERGY
+34914110963
www.elytt.com
angel.garcia@elytt.com
Elytt Energy designs and
manufactures resistive and superconducting electro-magnets and
power supplies for particle accelerators of all types.
Designs standard and custom-built resistive magnets, reaching from
small correctors, to very large magnets, 2D and 3D is used for mag-
netic field modelling. Our workshop has all manufacturing facilities
necessary, winding machines, vacuum system, oven, inert gas oven
and all measurement equipment. The following related services are
available, Mechanical calculations, Beam optical calculations, Vac-
uum calculation and design, On-site Installation.
Booth 31 Oxford Instruments Nanoscience
Tubney Woods, Abingdon, OX13 5QX, UK
+441865393200
nanoscience@oxinst.com
www.oxford-instru-
ments.com/nanoscience
We design, manufacture and
support market-leading research tools that enable quantum technolo-
gies, new materials and device development. Leading the field of su-
perconducting magnets for over 55 years, we have an unrivalled track
record of supplying some of the most challenging custom magnets
across the world. Our tools support research down to the atomic scale
through creation of high performance, cryogen-free low-temperature
and magnetic environments, based upon our core technologies in low
and ultra-low temperatures, high magnetic fields and system integra-
tion.

30
Booth 32 OCEM Power Electronics
Website: www.ocem.eu
OCEM Power Electronics has since
1943 supplied power systems to re-
search laboratories worldwide, ena-
bling advances in the fields of plasma physics, particle physics and
medical research. In recent years, OCEM engineers have published
numerous papers, and developed and patented new power electron-
ics technologies. The company’s commitment to high quality and its
customer-oriented approach have made its tailor-made solutions an
invaluable asset for more than 50 research facilities in 20-plus coun-
tries, including four Nobel-Prize winning labs.
Booth 33 American Magnetics Inc.
www.americanmagnetics.com
American Magnetics, Inc.
(AMI) has been a manufac-
turer of superconducting
magnet systems and cryo-
genic equipment for more than 45 years. Founded in 1968, AMI sup-
plies turn-key cryogen-free and liquid helium based superconducting
magnet systems, with custom solutions ranging from completely con-
duction cooled multi-axis systems combined with an integrated varia-
ble temperature insert to large room temperature bore zero boil-off
helium recondensing systems (Recon™). When AMI's innovative su-
perconducting magnets, such as the multi-axis (MAxes™) series, are
coupled with cutting-edge cryostats, the customer is buying a winning
combination. Topping off AMI's premier superconducting magnet sys-
tems is the Model 430 power supply programmer, which yields ex-
treme accuracy, high automation and easy control for customers, all
via Ethernet. AMI offers a complete line of capacitance and resistance
based instrumentation that can be utilized to measure any cryogenic
fluid with unparallelled accuracy and reliability. AMI stands behind its
products with a warranty offering full system protection for 15 months.
Booth 34 Shanghai Superconductor Technology
Bldg. 25, 1388 ZhangdongRoad, Pudong, Shanghai, P.R.China
+8613642357543
yiming.hong@shsctec.com
www.shsctec.com
Shanghai Superconductor
Technology Co., Ltd. (SSTC) employs physical
vapour deposition and manufactures custom,
cost effective 2G-HTS wires with superior me-
chanical properties and world leading critical
current densities especially at high magnetic field and low tempera-
ture. The company also provides peripheral products and services in-
cluding coil winding (machines) and vacuum deposition systems.

31
Booth 35 FEAC Engineering P.C.
61, Afstralias Street, P.O. 26442, Patras, Greece
+302613019794
info@feacomp.com
www.feacomp.com
FEAC is a leading solutions pi-
oneer, specialized in engineer-
ing simulation. The company
develops tailor-made, innova-
tive & multi-physics numerical
models (including coupled structural, electromagnetic, thermal, vi-
broacoustic & fluid phenomena), based on the Finite Element (FEM)
& Boundary Element (BEM) method. From initial design to prototype
testing, FEAC applies simulation expertise and operational experi-
ence to assist its clients with high-value and accurate solutions during
the R&D process of super/normal-conductive magnets, motors, gen-
erators and devices.
Booth 36 Cryomagnetics Inc.
www.cryomagnetics.com
Cryomagnetics, Inc., is a leading manufacturer of superconducting
magnets and systems. Solenoidal, split pair, multi-axis, and di-
pole/quadrupole magnets are available in dry, wet, and recondensing
designs.
Our C-Mag line of cryogen-FREE magnet systems with integrated VTI
feature a modular design with an evolving lineup of experimental mod-
ules.
System accessories include: 4 quadrant power supplies, liquid cryo-
gen level monitors, temperature monitors, gauss-meters, VTI's, He3
inserts, current leads, LHe and LN2 sensors, Hall effect sensors, tem-
perature sensors, and more.

32
Booth 37 Bruker EST
www.bruker. com/best
Bruker Energy and Supercon Technolo-
gies (BEST) is a global leader in super-
conductor solutions, providing an un-
matched range of products that meet
the needs of healthcare, academic and
industrial companies and organizations
worldwide. In close cooperation with our
customers, we design, develop and de-
liver product solutions that are at the
heart of a majority of the superconductor
magnets worldwide. They enable inno-
vators to build leading edge healthcare
and industrial products, as well as to
conduct fundamental research, such as
the search for the origins of the universe
and sustainable clean energies.
www.bruker.com/best
Booth 38 Tesla Engineering Ltd
Water Lane, Storrington, Sussex,
RH20 3EA, United Kingdom
+441903743941
sales@teslamagnets.com
www.tesla.co.uk
Tesla Engineering Ltd. was
founded over 40 years ago to sup-
ply magnets for particle accelerators. Today, the Tesla group of com-
panies has factories in the UK, the USA, and the Netherlands.
The group has combined expertise in magnetics, composites, and
precision manufacturing, and serves a wide range of well-known cus-
tomers in national and international laboratories (CERN, Fermilab,
ESRF, Brookhaven), and in several industries (MRI, Proton therapy,
Radiotherapy, Semiconductor fabrication, Fusion).
Booth 39 Stöhr Armaturen GmbH & Co KG
www.stoehr-valves.de
STÖHR ARMATUREN has special-
ized in cryogenic valves and filters for
gas handling in science & research
institutes since the 1960s. Our customers are well-known companies
and institutes worldwide. Cryogenic temperature down to 2K, high
pressure up to 800 bar, high leak tightness, media compatibility and
short shutter speed characterize our products. Our standard product
range comprises highly precise control valves, globe valves and
check valves for installation in valve boxes, vacuum jackets or regular
pipes; relief valves, overflow valves and filters.
STÖHR ARMATUREN – VALVES FOR THE EXTREMES !

33
Booth 40 Cryoworld B.V.
Havenweg 11C, 1771RW, Wieringerwerf, the Netherlands
+31228743930
info@cryoworld.com
www.cryoworld.com
Cryoworld BV in Wieringerwerf
is a manufacturer of advanced
cryogenic equipment. Our core
business is design, production, testing and installation of Helium and
other custom designed cryogenic equipment. Cryoworld specializes
in the development of new cryogenic technologies and delivers pro-
jects to renowned companies and scientific institutes worldwide.
Booth 41 DH Industries B.V.
Science Park, Eindhoven 5003, 5692EB, Son,
The Netherlands
www.dh-industries.com
DH Industries specializes in
the design and production of
Stirling Cryogenerators and
closed-loop cooling systems. Our customers rely on our expertise to
provide them with a cryogenic cooling system optimized for their ap-
plications. Combining our product lines Stirling Cryogenics, creating
cooling power, and CryoZone, distributing cooling power, we have de-
signed and build systems to pre-cool magnets down to 20K to reduce
LHe costs for cool-down.Depending your requirements we can design
and build a specific cooling system also for your unique application.
Booth 42 INCAA Computers B.V.
www.incaacomputers.com
NCAA Computers B.V. is a com-
pany specializing in design and
manufacture of professional
high-tech measurement and
control equipment for industrial, scientific, OEM and automotive appli-
cations. Since INCAA was founded in 1975, our focus is to provide
solutions for technical automation projects based on hardware, soft-
ware and system design. These projects are realized mainly in Eu-
rope, products are sold worldwide. Our software development team
can define scalable and high-performance projects and develop the
right software for it. Due to our in-house hardware expertise, we know
best to separate projects into hardware and software functions and
how to interface them to build innovative fail-safe systems. One ex-
ample is the Data-Acquisition System for the Magnetic Test Bench at
CERN SM18.

34
Booth 43 Basis Electronique de Puissance
www.basis-ep.com
Basis EP designs and man-
ufactures power converters
for any high power applica-
tion.
Basis is an international
specialist with an experi-
enced team of engineers in the power electronics field.
Basis EP specialization relies on:
• High current rectifiers from 10A to 100kA
• High voltage converters or capacitor chargers upto 90kVDC
• AC or DC power supplies with very high accuracy and stability
up to 5ppm
• Special inverters with current reversibility for special applications.
• Electronics development dedicated to analogic or digital Controller
Booth 44 Rolf Kind GmbH
Nochener Str. 1-3, 51647 Gummersbach, Germany,
info@r-kind.de / www.r-kind.de
Rolf Kind GmbH is a supplier of
open die forgings in high alloyed
stainless steels, nickel based al-
loys and titanium.
Since more than 40 years the company is producing sophisticated
special products for the most demanding industries, such as the nu-
clear, chemical, petrochemical and machinery and construction sec-
tors. The Germany-based company is deeply involved in research
and development projects like ITER and CERN and is looking forward
to support you in your demanding projects!
Booth 45 Alltech Medical Systems, LLC.
201 Tianqin Road, High-Tech Industrial Zone (West Park),
Chengdu,Sichuan, 611731, China
+2887809200
Sales-eng@alltechmed.com
www.alltechmed.com
With global operation in Cleve-
land, U.S. and Cheng-du, China,
Alltech is a leading company in
the engineering, manufacturing and service of superconducting mag-
nets. We provide the MRI industry and research societies a variety of
superconducting magnets, including the 1.5T standard and wide-bore
magnets for clinical MR systems, 3T/7T/9.4T magnets for research
and preclinical MR system, and 0-8T cryogen-free superconducting
magnet with various bore size. We are committed to serve our cus-
tomers with high quality and high reliability products.

35
Booth 46 HTS-110
1B Quadrant Drive, Waiwhetu, Lower Hutt 5010, New Zealand
+6445708880
info@hts-110.com
www.hts-110.com
Innovators in design and
manufacture of cryogen-free
magnetic solutions utilizing
high-Tc (HTS) wire. Products
include compact magnets for beamline environments, short solenoids
(1-3 T) ideal for optical applications, fast ramping split-pair magnets
(7-8 T) for materials research, NMR (200, 400 MHz) and MRI mag-
nets. Components designed for customer integration include Cry-
oSaver™ current leads, and HTS coils; HTS-110 also assists with
custom superconducting projects.
Booth 47 ICEoxford Limited
www.iceoxford.com
ICEoxford manufacture cryo-
genic systems with magnetic
fields for the global scientific
community. With 150+ years of
cryogenic experience to call
on, ICEoxford is superbly positioned to supply bespoke systems
suited to the particular needs of specific applications. Specialized in
both wet and dry systems as well as repairs and service.
Booth 48 Young Scientists and Entrepreneurs
Valorization Opportunity at MT25
A special booth for newcomer demonstrations is available at the
MT25 Exhibition sponsored by the conference hosts, the University of
Twente and HFML, and supported by IEEE-CSC.
Young Scientists and Young Entrepreneurs can take up the challenge
to show to the conference attendees innovative valorization ideas,
concepts or products that have the potential to make it to the market
in the field of superconducting magnets.
Newcomers is offered a platform for promoting innovative ideas or
conceptual products under development to explore the market poten-
tial of an invention or product.
Such demonstrators can be anything like smart sensors, actuators,
devices, tools, etc., provided of general interest and not yet covered
by an established company or institute. And, of course, size- and ser-
vices wise, the object should be suitable for demonstration in a booth.

36
Booth 49 DANFYSIK
www.danfysik.com
Today we are proud of being one of the world’s leading companies
within the development and manufacturing of high quality equipment
for particle accelerator laboratories, healthcare and industry, and we
employ some of the most skilled, experienced and dedicated engi-
neers and technicians. Danfysik has customers and partners all over
the world and our business is accelerating like our technology.
Specialties:Accelerator components, Accelerator systems, Power
supplies, Magnets, Insertion Devices, Particle Therapy accelerator
systems, Beam diagnostics, Synchrotron
Booth 50 Springer Science + Business Media B.V.
Springer Nature offers many opportunities for authors, customers and
partners.
http://www.springernature.com/gp/
hisako.niko@springer.com

37
Gold sponsors
Bruker EST
www.bruker.com/best
Sumitomo Cryogenics
www.shicryogenics.com
contact@sumitomocryo.de
Silver sponsors
DEMACO HOLLAND b.v.
rd@demaco.nl
www.demaco.nl
EMFL
info@emfl.eu
www.emfl.eu

38
Silver sponsors
Continued
General Atomics
John.Smith@ga.com
www.ga.com/ga-iter-energy-program
Western Superconducting Technologies
wires@c-wst.com
www.wstitanium.com , www.c-wst.com
ALPHYSICA
http://alphysica.com
Amsterdam
PHILIPS
www.philips.com/newscenter
Royal Philips (NYSE: PHG, AEX: PHIA) is a leading health technology
company focused on improving people's health and enabling better
outcomes across the health continuum from healthy living and pre-
vention, to diagnosis, treatment and home care. Philips leverages ad-
vanced technology and deep clinical and consumer insights to deliver
integrated solutions. Headquartered in the Netherlands, the company

39
is a leader in diagnostic imaging, image-guided therapy, patient mon-
itoring and health informatics, as well as in consumer health and
home care. Philips' health technology portfolio generated 2016 sales
of EUR 17.4 billion and employs approximately 70,000 employees
with sales and services in more than 100 countries.
NWO
https://www.nwo.nl/en
The Netherlands Organisation for Scientific Research supports a
strong system of sciences in the Netherlands by encouraging quality
and innovation in science. That is why NWO funds only the best re-
search - both curiosity-driven research and research into issues that
occupy the world - for which via peer-review independent, knowledge-
able experts from throughout the world are used for the assessment
and selection process.
Sponsors
TeslaEngineering Ltd.
sales@teslamagnets.com
www.tesla.co.uk
Advanced Conductor Technologies
www.advancedconductor.com
info@advancedconductor.com
Cryomech
cryosales@cryomech.com

42
Announcement of MT26-2019 in Vancouver

43
Floorplan
Conference center, ground floor
Included are the exhibition booth numbers.
Poster board numbers are displayed at the message board near
the entrance and on the website www.MT-25.org

44
Floorplan
Conference center, first floor
Included are the exhibition booth numbers.
Poster board numbers are displayed at the message board near
the entrance and on the website www.MT-25.org.

45
Technical Program
Sunday, August 27, 2017
Registration at RAI in Elicium Building, entrance D
16:00 – 19:00
Welcome reception 19:00 - 20:30 Elicium
Welcome Reception in Elicium Ball Room, 1st floor
Monday, August 28, 2017
Registration at RAI Conference Center, 08:00 – 18:30
Plenary Session 1.1 08:45 - 09:00 Auditorium
Conference Opening
Plenary Session 1.2 09:00 - 09:15 Auditorium
IEEE Awards Presentation
Plenary Session 2 09:15 - 10:00 Auditorium
ITER project
Session Chairs: Herman ten Kate and Haigun Lee
Mon-Mo-Pl2-01 09:15
Overall Status of the ITER Project
Bernard Bigot
ITER International Organization, France
Mon

46
Oral Session 1 10:30 - 12:15 Auditorium
LHC and HL-LHC magnets
Session Chairs: Attilio Milanese and Luis Garcia-tabares
Mon-Mo-Or1-01 10:30
Hi-Lumi LHC Twin Aperture Orbit Correctors Magnet As-
sembly & Cold Test
Glyn Kirby, Luca Gentini, Jacky Mazet, et al.
CERN, Geneva, Switzerland
Mon-Mo-Or1-02 10:45
Training Performance with Increased Coil Pre-stress of
the 2-m Model Magnet of Beam Separation Dipole for the
HL-LHC Upgrade
Michinaka Sugano, Andrea Musso, Ezio Todesco, et al.
Mon-Mo-Or1-03 11:00
Training of the main dipoles magnets in the Large Had-
ron Collider towards 7 TeV operation
Ezio Todesco, Marta Bajko, Davide Tommasini, et al.
Mon-Mo-Or1-04 11:15
Detailed magnetic and mechanical design of the nested
orbit correctors for HL-LHC
Jesús Angel García-matos, Fernando Toral, et al.
CIEMAT, Spain
Mon-Mo-Or1-05 11:30
Status of the Activity for the Construction of the HL-LHC
Superconducting High Order Corrector Magnets at
LASA-Milan
Massimo Sorbi, Antonio Leone, et al.
Milan University & INFN-LASA, Italy
Mon-Mo-Or1-06 11:45
Development of a short model of the superconducting
separation dipoles D2 for the High Luminosity Upgrade
of LHC
Pasquale Fabbricatore, Andrea Bersani, et al.
Universita e INFN Genova (IT), Genova, Italy
Mon-Mo-Or1-07 12:00
A Statistical Analysis of Electrical Faults in the LHC
Magnets
Luca Bottura, Jean-Philippe Tock, et al.
Mon

47
Oral Session 2 10:30 - 12:15 Emerald Room
High-field Magnets
Session Chairs: Jos Perenboom and Todd Adkins
Mon-Mo-Or2-01 10:30
[Invited] Progress in the Construction of the 43 T Hybrid
Magnet at LNCMI-Grenoble
Pierre Pugnat
CNRS-LNCMI, Grenoble, France
Mon-Mo-Or2-02 11:00
[Invited] The commissioning of a hybrid magnet at
CHMFL
Wenge Chen, Zhiyou Chen, Donghui Jiang, et al.
China High Magnetic Field Laboratory, China
Mon-Mo-Or2-03 11:30
[Invited] Commissioning of the 36 T Series-Connected
Hybrid Magnet at the NHMFL
Mark Bird, William Brey, Iain Dixon, et al.
NHMFL/FSU, Tallahassee, FL, USA
Mon-Mo-Or2-04 12:00
Design of the resistive insert coils for the HFML 45 T Hy-
brid Magnet
Frans Wijnen, Jos Perenboom, Andries den Ouden, et al.
HFML, Radboud University, Nijmegen, the Netherlands Mon

48
Oral Session 3 10:30 - 12:15 G102-103 Room
Mechanical Aspects and Novel Diagnostics
Session Chairs: Emmanuele Ravaioli and Patrick Noyes
Mon-Mo-Or3-01 10:30
Mechanical–electric Model for Multifilament Composite
Superconducting Strands
Yuanwen Gao, Xu Wang, Yang Liu and Youhe Zhou
Lanzhou University, China
Mon-Mo-Or3-02 10:45
Analytical investigation in bending characteristic of pre-
twisted HTS tapes
Wurui Ta and Yuanwen Gao
Key Lab. of Mechanics on Environment and Disaster, China
Mon-Mo-Or3-03 11:00
Multi-scale approach to the mechanical behaviour of
epoxy impregnated Nb3Sn Dipole Coils for the 11T Di-
pole
Michael Daly, Christian Hannes Loffler, et al.
Mon-Mo-Or3-04 11:15
Structural Behavior of KSTAR CS Magnet during Plasma
Operation
Hee-Jae Ahn, H. K. Park, Y. Chu, Y. O. Kim, et al.
National Fusion Research Institute, Korea
Mon-Mo-Or3-05 11:30
Fatigue failure analysis of a 60T pulsed magnet at WHMFC
Quqin Sun, Fan Jiang, Le Deng, Houxiu Xiao, et al.
China Academy of Engineering Physics, China
Mon-Mo-Or3-06 11:45
Real-time functional diagnostics of superconducting
magnets using acoustic techniques
Maxim Marchevsky, Stephen Gourlay, et al.
Lawrence Berkeley National Lab. (US), Berkeley, CA, USA
Mon-Mo-Or3-07 12:00
Mechanical Analysis of the Short Model Magnets for the
Nb3Sn Low-Beta Quadrupole MQXF
Giorgio Vallone, Paolo Ferracin, Daniel Cheng, et al.
Mon

49
Poster Session 1
Session Chairs: Davide Uglietti and Chao Zhou
Poster Session 1.01 13:15 - 15:00 Posters Area
Nb3Sn Magnets for HL-LHC and other Applications
Mon-Af-Po1.01-01 [01]
Frequency domain Diagnosis Methods for Quality As-
sessment of Nb3Sn coil Insulation systems and imped-
ance measurement
Arnaud Foussat, David Smekens, et al.
Mon-Af-Po1.01-02 [02]
Mechanical Analysis of the Dipole Magnet FRESCA2
During Assembly, Cool-Down and Training
Etienne Rochepault, Philippe Grosclaude, et al.
Mon-Af-Po1.01-03 [03]
Fabrication of the 7.2 m long coils for the prototype of
MQXFB, the Nb3Sn low-b quadrupole magnet for the Hi-
LHC
Friedrich Lackner, Paolo Ferracin, et al.
Mon-Af-Po1.01-04 [04]
Quench Location in the LARP MQXFS1 prototype
Thomas Strauss, Giorgio Ambrosio, et al.
Fermilab, USA
Mon-Af-Po1.01-05 [05]
Design and Fabrication of the 1.9 K Magnet Test Facility
at BNL, and Test of the First 4 m Long MQXF Coil.
Joseph F Muratore, Michael Anerella, et al.
Brookhaven National Laboratory, USA
Mon-Af-Po1.01-06 [06]
Magnetic Measurements on Short Models and Long Coil
Assemblies of the 11-T dipoles for HL-LHC
Lucio Fiscarelli, Olaf Dunkel, et al.
Mon-Af-Po1.01-07 [07]
Magnetic Measurements on the First Models of the Inser-
tion Quadrupole MQXF for HL-LHC
Lucio Fiscarelli, Giorgio Ambrosio, et al.
Mon

50
Mon-Af-Po1.01-08 [08]
Experimental and numerical investigation on losses in
electrodynamic transients in a Nb3Sn prototype race-
track coil
Marco Breschi, Pier Luigi Ribani, et al.
University of Bologna, Italy
Mon-Af-Po1.01-09 [09]
Mechanical Design of a Nb3Sn Superconducting Magnet
System for a 45 GHz ECR Ion Source
Mariusz Juchno, Aurelio Hafalia, Daniel Xie, et al.
LBNL, Berkeley, CA, USA
Mon-Af-Po1.01-10 [10]
Quench Protection of the 11 T Nb3Sn Dipole for the High
Luminosity LHC
Susana izquierdo Bermudez, Frederic Savary, et al.
Mon-Af-Po1.01-11 [11]
Beam Trajectory Simulation Considering Each Harmonic
Components in HTS Quadruple Triplet
Zhan Zhang, Shaoqing Wei and Sangjin Lee
Uiduk University, Korea
Mon-Af-Po1.01-12 [12]
Assembly and test of the support structure for the sub-
scale dipole magnet FECD1
Zhang Kai, Xu Qingjin, Wang Chengtao, et al.
Institute of High Energy Physics, China
Detector Magnets
Mon-Af-Po1.02-01 [13]
Magnet System for the BabyMIND Neutrino Detector at J-
PARC
Alexey Dudarev, Gabriella Rolando, et al.
Mon-Af-Po1.02-02 [14]
Design, manufacturing and testing of a unique coil col-
laring system for the Jefferson lab’s large superconduct-
ing magnets SHMS Dipole and Q2Q3 quadrupoles
Amaury Porhiel, Frederick Forest, et al.
Sigmaphi, France
Mon

51
Mon-Af-Po1.02-03 [15]
Commissioning of the R3B-Glad superconducting dipole
magnet
Bernard Gastineau, Christophe Mayri, et al.
CEA Saclay, Gif-sur-Yvette, France
Mon-Af-Po1.02-04 [16]
Status of Design and Manufacturing of PENELOPE neu-
tron trap
Cristian Boffo, Jochen Steinmann, et al.
Babcock Noell GmbH, Germany
Mon-Af-Po1.02-05 [17]
A passively shielded HTS magnet for polarized neutron
scattering
Taotao Huang, Donald Pooke and Vadim Chamritski
HTS-110 Ltd., New Zealand
Mon-Af-Po1.02-06 [18]
Operational experience with the combined solenoid/di-
pole magnet system of the COMPASS Experiment at
CERN
Erwin Roland Bielert, Herman ten Kate, et al.
Mon-Af-Po1.02-07 [19]
FCC-hh Detector Magnet Cryostats and Cold Mass Sus-
pension system
Helder F. p. Silva, Alexey Dudarev, et al.
Mon-Af-Po1.02-08 [20]
Optimization, design, and operation assessment of a
multipurpose detector for the NICA collider
Martina Neri, Simone Grillo, Alessio Capelluto, et al.
ASG Superconductors s.p.a., Genova, Italy
Mon-Af-Po1.02-09 [21]
Commissioning of the Superconducting Magnets for the
SHMS Spectrometer at Jefferson Lab
Paul Brindza, Amaury Porhiel, David Ramauge, et al.
Jefferson Laboratory, USA
Mon-Af-Po1.02-10 [22]
Development of conductors for thin solenoids for ultra
radiation-transparent detector magnets
Tobias Kulenkampff, Alexey Dudarev, et al.
Vienna University of Technology, Austria
Mon

52
HTS Inserts and Model Magnets
Mon-Af-Po1.03-01 [23]
Cryo-free multisection superconducting magnetic sys-
tem with MgB2 coil
Dmitry Abin, Maxim Osipov, Sergei Pokrovskii, et al.
National Research Nuclear University, Moscow, Russia
Mon-Af-Po1.03-02 [24]
Transient Behaviors of a 3 T 100 mm Stainless Steel
Cladding All-REBCO Magnet During Sudden Discharging
Jae Young Jang, Young Jin Hwang, et al.
Korea Basic Science Institute, Korea
Mon-Af-Po1.03-03 [25]
A Field-Shaking System to Eliminate the Screening-Cur-
rent Field in the 800-MHz HTS Insert of the MIT 1.3-GHz
LTS/HTS NMR Magnet: A Small-Model Study
Jiho Lee, Dongkeun Park, Philip Michael, et al.
Massachusetts Institute of Technology, USA
Mon-Af-Po1.03-04 [26]
Direct current decay in a closed YBCO No-insulation coil
under external AC magnetic field
Jun Ma
Cambridge University, United Kingdom
Mon-Af-Po1.03-05 [27]
Defect-Irrelevant Behavior of No-Insulation REBCO Coils
at 4.2 K
Kyle Radcliff, Kwanglok Kim, Xinbo Hu, et al.
Applied Superconductivity Center-NHMFL, FL, USA
Mon-Af-Po1.03-06 [28]
Optimal Design Methodology of Multi-Width HTS Magnet
Min Cheol Ahn, Hongmin Yang, Kyungmin Kim, et al.
Kunsan National University, Korea
Mon-Af-Po1.03-07 [29]
Controllability of the contact resistance of 2G HTS coil
with metal insulation
Myung-hwan Sohn, Kideok Sim, Beomyong Eom, et al.
Korea Electro-technology Research Institute, Korea
Mon-Af-Po1.03-08 [30]
Quench Behaviour of Bi2Sr2CaCu2O8+x insert coils for
high field magnets
Steven Ball, Andrew Twin, David Warren, et al.
Oxford Instruments, United Kingdom
Mon

53
Motors - I
Mon-Af-Po1.04-01 [31]
Estimation of Permanent Magnet Temperature using d-
axis Current for IPMSM
Chang-sung Jin, Sooyoung Cho and Jae-kwang Lee
Hanwha Techwin, Korea
Mon-Af-Po1.04-02 [32]
Proposed Commutation Method for Performance Im-
provement of Brushless DC Motor
Chang-sung Jin, Sooyoung Cho and Jae-kwang Lee
Hanwha Techwin, Korea
Mon-Af-Po1.04-03 [33]
Investigation and Optimization of the Field Regulation
Capacity in a Hybrid Axial Field Flux-Switching Perma-
nent Magnet Machine
Da Xu, Mingyao Lin, Li Hao, Nian Li and Qiang Li
Southeast University, China
Mon-Af-Po1.04-04 [34]
Analysis and comparison of dual stator linear primary
permanent magnet vernier machine and fault-tolerant lin-
ear vernier machine
Fangfang Bian and Wenxiang Zhao
Jiangsu University, China
Mon-Af-Po1.04-05 [35]
A new dual air-gap linear permanent magnet vernier ma-
chine using ring type windings
Fangfang Bian and Wenxiang Zhao
Mon-Af-Po1.04-06 [36]
Flux Characteristics Analysis of a Single-phase Tubular
Switched Reluctance Linear Motor
Hao Chen, Wenju Yan and Zhixiong Li
China University of Mining & Technology, China
Mon-Af-Po1.04-07 [37]
Analytical Polynomial Models of Nonlinear Magnetic Flux
Linkage for Switched Reluctance Motor
Hao Chen, Wenju Yan, Lei Chen, Meng Sun and Zheng Liu
Mon-Af-Po1.04-08 [38]
Electromagnetic Analysis on Dual-Stator Switched Re-
luctance Motor
Hao Chen, Rui Nie and Tong Xu
Mon

54
Mon-Af-Po1.04-09 [39]
Analysis of Magnetic Polarity Distribution for a Dual-ro-
tor Switched Reluctance Machine
Hao Chen, Tong Xu and Rui Nie
Mon-Af-Po1.04-10 [40]
A transverse flux single-phase tubular switched reluc-
tance linear motor
Hao Chen and Rui Nie
Mon-Af-Po1.04-11 [41]
SynRM Rib optimal Design method for High-Power Den-
sity
Jae-Kwang Lee, Sol Kim and Ju Lee
Hanyang University, Korea
Mon-Af-Po1.04-12 [42]
Design principle of WFSM for Electric Vehicle based
magnetic-thermal equivalent circuit
Jae-Jun Lee, Jae-Kwang Lee and Gang Seok Lee
Hyundai Heavy Industries Co.,Ltd, Korea
Mon-Af-Po1.04-13 [43]
Design and Initial Results of a Novel in-situ A.C. loss
Measurement in Axial Flux Synchronous Machine
Jay Patel, Jie Sheng, Min Zhang and Weijia Yuan
University of Bath, Bath, United Kingdom
Mon-Af-Po1.04-14 [44]
3D Electromagnetic Design and Analysis of a 1-HP-Class
HTS Rotating Machine integrated with a Contactless HTS
Excitation Device
Ji Hyung Kim, Ho Min Kim, Chang Ju Hyeon, et al.
Jeju National University, Korea
Mon-Af-Po1.04-15 [45]
High Efficiency Permanent Magnet Linear Synchronous
Motor
Hongliang Wang, Jian Li, Ronghai Qu, et al.
Huazhong University of Science & Technology, China
Mon-Af-Po1.04-16 [46]
Numerical Analysis and Design of SPM Type Variable
Flux Memory Motor Considering Magnetization and De-
magnetization Characteristic of Permanent Magnet
Jin-Seok Kim, Sang-Yong Jung and Dae-Woo Kim
Sungkyunkwan University, Korea
Mon

55
Mon-Af-Po1.04-17 [47]
A Study on the Position Signal Compensation Control
Technique of Hall Sensor Generated by Uneven Mag-
netic Flux Density
Jongsuk Lim, Lee Ju, Sol Kim and Dong-Woo Kang
Mon-Af-Po1.04-18 [48]
Study on the design of a Very-high speed PM Motor/Gen-
erator for Electric-Turbo Compounding System
Dong-Hoon Jung, Ju Lee, Jongsuk Lim, et al.
Mon-Af-Po1.04-19 [49]
Design method of an ultra-high speed PM Motor/Genera-
tor for Electric-Turbo Compounding System
Dong-Hoon Jung, Ju Lee, Jongsuk Lim, et al.
Mon-Af-Po1.04-20 [50]
Effect of Multi-phase Winding on Surface Permanent-
Magnet Machine with Low Space Harmonics for Electric
Steering Gear
Junqiang Zheng, Wenxiang Zhao and Jinghua Ji
Mon-Af-Po1.04-21 [51]
Effect of Sub-Harmonics Reduction on Rotor loss in Per-
manent-Magnet Machines Considering Rotor Structures
Junqiang Zheng, Wenxiang Zhao, Jinghua Ji, et al.
Mon-Af-Po1.04-22 [52]
A study on the individual control method comparing the
lateral displacement control of front wheel and rear
wheel of IRWs system
Junhui Won, Kyoung-jin Joo, Gang Seok Lee, et al.
Hanyang Univiversity, Korea
Mon-Af-Po1.04-23 [53]
A study on the control method of lateral displacement
and yaw angle in severely curved driving of IRWs sys-
tem
Junhui Won, Kyoung-Jin Joo, Gang Seok Lee, et al.
Mon

56
Mon-Af-Po1.04-24 [54]
A Synthetic Frozen Permeability Method to Separate PM
torque in Hybrid Permanent Magnet Variable-Flux Ma-
chine
Meng Ge, Jian Li, Ronghai Qu, Yang Lu and Junhua Chen
Huazhong University of Science & Technology, China
Mon-Af-Po1.04-25 [55]
A novel non-salient pole rotor to improve self-starting
performance of line start PM synchronous motor
Mengxuan Lin, Dawei Li, Ronghai Qu, Xiang Ren, et al.
Huazhong University of Science and Technology, China
Mon-Af-Po1.04-26 [56]
Design of Dual-Channel Switched Reluctance Motor for
Safety-Critical Applications Using Two 3-Phase Standard
Inverters
Qian Chen, Guohai Liu and Jian Wang
Mon-Af-Po1.04-27 [57]
Design and Analysis of an Arc-teeth Permanent Magnet
Linear Synchronous Motor for Direct-drive Application
Rong Guo, Haitao Yu, Xiaomei Liu, Weibo Zhong, et al.
School of Electrical Engineering, Southeast University, China
Mon-Af-Po1.04-28 [58]
A Multi-Phase Doubly-Fed Doubly-Salient HTS Linear
Motor for Vertical Transportation
Wenlong Li, Jianqiang Li, Rui Li and Zhong Ming
Shenzhen University, China
Mon-Af-Po1.04-29 [59]
Analysis of Novel Mover Partitioned Linear Magnetic-
Field Modulated Motors Having Single or Double Layer
Windings
Shiyuan Wang, Wenxiang Zhao and Jinghua Ji
Mon-Af-Po1.04-30 [60]
Comparison of output characteristics of PMSM for EV
according to water cooling and oil cooling
Soo-Jin Jung, Kyoung-Jin Joo, Gang Seok Lee, et al.
LG Electronics, Korea
Mon-Af-Po1.04-31 [61]
A Study on the Optimal Design of Step Skew Consider-
ing End Effect and Interaction Between Layers in Step
Skew
Sung Gu Lee, Won-Ho Kim and Jaenam Bae
Busan University of Foreign Studies, Korea
Mon

57
Mon-Af-Po1.04-32 [62]
Optimization of the Pole Piece in Coaxial Magnetic Gears
for Transfer Torque Ripple Improvement
Sung-Jin Kim, Eui-Jong Park, Lee Sung-Ho, et al.
Chosun University, Korea
Mon-Af-Po1.04-33 [63]
Design of Vernier Motor considering Irreversible Demag-
netization in Permanent Magnet
Sang-Yong Jung, Tae-Yong Lee, Dae-Woo Kim, et al.
Sungkyunkwn University, Korea
Mon-Af-Po1.04-34 [64]
Electromagnetic Performances and Noise Analysis of IP-
MSM according to the Control Method under Flux-Weak-
ening Region
Tae-Yong Lee, Sang-Yong Jung, Myung-Ki Seo, et al.
Sungkyunkwn University, Korea
Mon-Af-Po1.04-35 [65]
Design and Analysis of A Novel Modular-Stator Tubular
Vernier Permanent-Magnet Machine
Tian Yao, Wenxiang Zhao, Fangfang Bian, et al.
Mon-Af-Po1.04-36 [66]
New Modular Magnetic Equivalent Circuit of Dual-Perma-
nent-Magnet-Excited Machine with Modulation Effect
Consideration
Tong Liu, Donghui Cao, Yang Shen and Jinghua Ji
Mon-Af-Po1.04-37 [67]
Direct-Control Strategy for Bearingless Permanent Mag-
net Synchronous Motor
Wei Pan, Huangqiu Zhu, Xiaoyan Diao, et al.
Mon-Af-Po1.04-38 [68]
A Study on the New Skew Methodology by Cross-Stack-
ing in Spoke type Ferrite Magnet Motor
Won-Ho Kim and Sung-Gu Lee
Gachon University, Korea
Mon-Af-Po1.04-39 [69]
Effect of Pole and Slot Combination on Vibration of
Spoke-Type Permanent Magnet Motors
Sunghyuk Park and Won-Ho Kim
Samsung Electronics, Korea
Mon

58
Magnetic Levitation and Bearings
Mon-Af-Po1.05-01 [70]
Decoupling Control Based on Linear/Nonlinear Active
Disturbance Rejection Switching for 3 Degrees of Free-
dom HMB
Huangqiu Zhu, Zelong Zhao and Chenyin Zhao
Mon-Af-Po1.05-02 [71]
Analysis of dynamic deformation and disturbing torque
of superconducting spinning rotor
Chunyan Cui, Xinning Hu, Hui Wang, Lankai Li, et al.
Institute of Electrical Engineering, CAS, China
Mon-Af-Po1.05-03 [72]
Dynamic Responses of Stacked coated conductor tapes
Levitated above a Permanent Magnet Guideway
Kun Liu, Chang-Qing Ye, Xiang Li, Wen-Jiao Yang, et al.
South West JiaoTong University, China
Mon-Af-Po1.05-04 [73]
Analysis on end effect and levitation force calculation
for radial-type superconducting magnetic bearings
Liwang Ai, Zhang Guomin, Wanjie Li, Guole Liu, et al.
Mon-Af-Po1.05-05 [74]
Levitation and guidance forces of CC-tape stacks
Maxim Osipov, Sergei Pokrovskii, Dmitry Abin, et al.
National Research Nuclear University, MEPhI, Russia
Mon-Af-Po1.05-06 [75]
Capacity Allocation of a Superconducting Flywheel Stor-
age System (SFES) in Hybrid Energy Storage System for
Wind Generation
Rakkyung Ko, Youngwook Kim and Sung-kwan Joo
Korea University, Korea
Mon-Af-Po1.05-07 [76]
A Superconducting Linear Variable Reluctance Machine
for Urban Transportation Systems
T.w. Ching and Wenlong Li
University of Macau,China
Mon-Af-Po1.05-08 [77]
Decoupling Control of Bearingless Synchronous Reluc-
tance Motor Based on Differential Geometry
Xiaoyan Diao, Huangqiu Zhu and Chenyin Zhao
Mon

59
Mon-Af-Po1.05-09 [78]
The performance of magnetic suspension and mo-
tor/generator of a bearingless BLDCM for flywheel en-
ergy storage system
Yichen Liu, Huangqiu Zhu and Lei Huang
Mon-Af-Po1.05-10 [79]
Levitation Performance of Bulk YBCO and GdBCO Under
a Low-Pressure Condition
Yong Zhang, Jun Zheng, Botian Zheng, Hongdi Wang, et al.
Southwest Jiaotong University, China
Mon-Af-Po1.05-11 [80]
Electromagnetic Performance Optimization Design of 5-
phase BPMSM Based on Third Harmonic Injection
Yuemei Qin and Huangqiu Zhu
Jiangsu university, China
Mon-Af-Po1.05-12 [81]
Design of Suspension Force Feedback Control System
of Multiphase BPMSM Based on MRAS Inductance Pa-
rameter Identification
Huangqiu Zhu and Yuemei Qin
Jiangsu university, China
Mon-Af-Po1.05-13 [82]
Soft Sensing Modeling of Rotor Displacements Based on
Continuous Hidden Markov Model
Huangqiu Zhu, Hao Gu and Yuemei Qin
Transformers and SMES
Mon-Af-Po1.06-01 [83]
Test Winding of a 1-T Class Force-Balanced Coils Using
High Temperature Superconducting Tapes
Hiroharu Kamada, Toru Ueki, Akira Ninomiya, et al.
Meiji University, Tokyo, Japan
Mon-Af-Po1.06-02 [84]
Manufacture and tests of a 1 MJ HTS Magnet for a SMES-
FCL
Jingye Zhang, Guomin Zhang, Liwei Jing, et al.
Mon

60
Mon-Af-Po1.06-03 [85]
Modeling and Analysis of Parasitic Capacitance of High-
Frequency High-Voltage Transformer Using Finite-Ele-
ment Method
Le Deng, Tao Peng, Shuang Wang, Fan Jiang, et al.
Wuhan National High Magnetic Field Center, China
Mon-Af-Po1.06-04 [86]
Conceptual Design and Evaluation of a HTS Magnet for a
SMES Used in Improving Transient Performance of a
Grid-Connected PV System
Lei Chen, Hongkun Chen, Jun Yang, Huiwen He, et al.
Wuhan University, China
Mon-Af-Po1.06-05 [87]
Multi-objective filter designing for HTS SMES consider-
ing the voltage distribution characteristic
Shi Jing, Liao Meng and Zhou Aobo
Mon-Af-Po1.06-06 [88]
Superconducting properties of Prototype Pancake Coil
using MgB2 Cable
Masaru Tomita, Taiki Onji, Atsushi Ishihara, et al.
Railway Technical Research Institute, Japan
Mon-Af-Po1.06-07 [89]
Feasibility Study of MgB2 Cable for Pancake Coil of En-
ergy Storage Device
Shinya Mizuno, Tsuyoshi Yagai, Okubo Toru, et al.
Sophia University, Tokyo, Japan
Mon-Af-Po1.06-08 [90]
Study on Integral Transformer / Reactor for Improving
Power Density
Su Yong Kim
KETI, Korea
Mon-Af-Po1.06-09 [91]
Step-current method for improving energy storage den-
sity of superconducting magnet
Yalan Huang and Yong Lei
Sichuan University, China
Mon-Af-Po1.06-10 [92]
Dynamic performances analysis for HTS SMES Used in
Power Grid Based on a Novel Field-Circuit Coupled
Method
Zuoshuai Wang, Li Ren, Yuejin Tang, Ying Xu, et al.
Mon

61
Novel and Space Applications
Mon-Af-Po1.07-01 [93]
Design of the Conduction-cooled YBCO Magnet for a
MW Class Induction Heating System
Dong Zhang, Liye Xiao, Naihao Song, et al.
Mon-Af-Po1.07-02 [94]
Asymmetry in wireless power transfer between a super-
conducting coil and a copper coil
Hui Yu, Guole Liu, Qi Liu and Zhang Guomin
Mon-Af-Po1.07-03 [95]
Design of maximum power density of TVC driving motor
for space launch vehicle considering space environment
Hyun-Woo Jun, Jongsuk Lim, Gang Seok Lee and Ju Lee
Mon-Af-Po1.07-04 [96]
Characteristics of SWPT according to the number of
transmitting and receiver coils
In-sung Jeong, Hyewon Choi, Noa Park, et al.
Mon-Af-Po1.07-05 [97]
Optimization Design of a Permanent Magnetic Actuator
for 126 kV Vacuum Circuit Breaker
Jiaming Jiang, Lin Heyun, Shuhua Fang, et al.
School of Electrical Engineering, Southeast University, China
Mon-Af-Po1.07-06 [98]
Decoupling Velocity and Thermal Effect in the Electro-
magnetic Ring Expansion Test
Jiawei Wu, Qi Chen, Lei Qiu, Xiaotao Han, et al.
Mon-Af-Po1.07-07 [99]
Enhancement of trapped magnetic field using a large-
size REBCO bulk in a desktop type superconducting
bulk magnet
Kazuya Yokoyama, Atsushi Katsuki, Atsuro Miura, et al.
Ashikaga Institute of Technology, Japan
Mon-Af-Po1.07-08 [100]
Design and Optimization of a Multi-pulse Electromag-
netic Deep Drawing System
Lantao Huang, Jianhui Wang, Jing Zhang, et al.
Xiamen University, China
Mon

62
Mon-Af-Po1.07-09 [101]
Analysis and Optimal Design of the Transmission Coils
for the Wireless Power Transmission System
Lantao Huang, Jianhui Wang and Jing Zhang
Xiamen University, China
Mon-Af-Po1.07-10 [102]
Analysis of the coupling factor according to diameter of
superconducting transmitting and receiving coils
Noa Park, In-Sung Jeong, Seonho Hwang, et al.
Mon-Af-Po1.07-11 [103]
Development of high-temperature superconducting mag-
net for 1 MW induction heater
Shaotao Dai and Tao Ma
School of Electrical Eng., Beijing Jiaotong University, China
Mon-Af-Po1.07-12 [104]
Design and Performance Evaluation of a Large-scale
HTS DC reactor for Bulk-Power Transmission
Sung-kyu Kim, Myung-hwan Sohn, Kideok Sim, et al.
Korea Electrotechnology Research Institute, Korea
Mon-Af-Po1.07-13 [105]
Developemt of Magnetic Coupled-Connectorless Power
Transfer System
Suyeon Cho, Jongsuk Lim, Gang Seok Lee and Ju Lee
Korea Automotive Technology Institute, Korea
Mon-Af-Po1.07-14 [106]
Design of a high temperature superconducting magnet
for a single silicon crystal growth system
Van Quan Dao, Chankyeng Lee, Jongho Choi, et al.
Changwon National University, Korea
Mon-Af-Po1.07-15 [107]
Design and Analysis of a Superconducting Coil Magnet
Applied for a Space Magnetoplasmadynamic Thruster
Wenjiang Yang, Lu Yao, Baojun Wang and Haibing Tang
Beihang University, China
Mon-Af-Po1.07-16 [108]
Investigation of bulging behavior of metallic tube in elec-
tro-magnetic forming process with a bias magnetic field
Xiaoxiang Li, Quanliang Cao, Zhipeng Lai, et al.
Mon

63
Mon-Af-Po1.07-17 [109]
Design and Analysis of a New HTS Electromagnetic
Screw
Zhijian Ling and Wenxiang Zhao
Low-Tc Wires and Cables
Mon-Af-Po1.08-01 [110]
Single-strand excitation for examining current sharing
and ICR in cored and non-cored Nb3Sn Rutherford Cable
at 4.2 K up to 12 tesla
Chris Kovacs, Mike Sumption and Ted Collings
Ohio State University, USA
Mon-Af-Po1.08-02 [111]
Superconducting properties of Nb3Al wires prepared
with rapid heating, quenching and transformation
method
Xifeng Pan, Chuan Chen, Zhiming Bai and Guo Yan
WST, Western Superconducting Technologies Co., China
Mon-Af-Po1.08-03 [112]
Ongoing efforts at internal-tin Nb3Sn strand with higher
Jc and lower Qh for fusion application
Jianwei Liu, Ke Zhang, Yigong Shi, Jianfeng Li, et al.
WST, Western Superconducting Technologies, Co. China
Mon-Af-Po1.08-04 [113]
A Study on Draw-ability of Nb Filaments for Manufactur-
ing Nb3Sn Strand
Jiman Kim, Haigun Lee, Yoon Hyuck Choi, et al.
Dep. of Materials Sci.&Eng., Korea University, Seoul, Korea
Mon-Af-Po1.08-05 [114]
3D Stress-Strain Modeling of Nb3Sn wire
Jingping Chen, Ke Han and Yuhu Zhai
Princeton Plasma Physics Laboratory, USA
Mon-Af-Po1.08-06 [115]
Enhanced critical current densities in Nb3Sn supercon-
ducting strands prepared by bronze process
Ke Zhang, Xing Qin, Huixian Gao, Yigong Shi, Bo Wu, et al.
WST, Western Superconducting Technologies Co., China
Mon

64
Mon-Af-Po1.08-07 [116]
Nb-rod-method Cu-Nb/Nb3Sn wires for practical React-
and-Wind applications
Masahiro Sugimoto, Kota Katayama, Akira Takagi, et al.
Furukawa Electric Co., Ltd., Japan
Mon-Af-Po1.08-08 [117]
Low loss NbTi Superconducting Wires for the SIS100
Main Magnets made by Luvata
Mikael Holm and Jarmo Seppälä
Luvata Pori Oy, Pori, Finland
Mon-Af-Po1.08-09 [118]
Irreversible strain characteristics of technical RHQT
Nb3Al superconductors
Nobuya Banno, Gen Nishijima, Hitoshi Kitaguchi, et al.
NIMS, National Institute for Materials Science, Japan
Mon-Af-Po1.08-10 [119]
Influence of Reaction Heat Treatment Conditions on In-
terstrand Contact Resistances of Nb3Sn Rutherford Ca-
bles
Ted Collings, Mike Sumption, Milan Majoros, et al.
Ohio State University, USA
Mon-Af-Po1.08-11 [120]
Evaluation of thermal strain induced on components of
Nb3Sn strand during cool down
Tomone Suwa, Tsutomu Hemmi, Toru Saito, et al.
Nat. Inst. for Quantum and Radiological Sci.&Techn., Japan
Mon-Af-Po1.08-12 [121]
Production of Aluminum Stabilized Superconducting Ca-
ble for the Mu2e Transport Solenoid
Vito Lombardo, Giorgio Ambrosio, Daniel Evbota, et al.
Fermilab, USA
Mon-Af-Po1.08-13 [122]
The influence of heating treatment on NbTi supercon-
ducting wires with Cu5Ni alloy matrix
Xing Qin and Qiang Guo
WST, Western Superconducting Technologies.,Ltd., China
Mon-Af-Po1.08-14 [123]
Superconducting properties and microstructure of high
performance Nb3Al wires fabricated by RHQT and me-
chanically alloyed methods
Yong Zhao, Y Zhang, Cc Hsin, Py Li, C Ke, G Yan, et al.
Mon

65
Mon-Af-Po1.08-15 [124]
Changes of superconducting properties due to the unidi-
rectional tensile deformation on bronze-processed
Nb3Sn multifilamentary wires using various Cu-Sn-Zn
ternary alloy matrices
Yoshimitsu Hishinuma, Hidetoshi Oguro, et al.
NIFS, National Institute for Fusion Science, Japan
Joints between Superconductors, Leads and Links
Mon-Af-Po1.09-01 [125]
Superconducting joints made using internal Mg diffusion
(IMD)-processed MgB2 wires
Akiyoshi Matsumoto and Hiroaki Kumakura
NIMS, National Institute for Materials Science, Japan
Mon-Af-Po1.09-02 [126]
Design of the internal embedded joints for the EU DEMO
TF coils
Aldo di Zenobio, Luigi Affinito, et al.
ENEA, Italy
Mon-Af-Po1.09-03 [127]
Design, manufacture and test of 20 kA binary current
leads for the HFML 45 T hybrid magnet
Andries den Ouden, Matthias Hoffmann, et al.
HFML, Radboud University, Nijmegen, the Netherlands
Mon-Af-Po1.09-04 [128]
Field-assisted Joining of (RE)Ba2Cu3O7-x Coated Con-
ductors
Carolyn Grimley and Justin Schwartz
North Carolina State University, USA
Mon-Af-Po1.09-05 [129]
Simulation Analysis of Typical Defects on superconduc-
tor cable
Shixiang Tang, Chunhua Fang and Yuqiu Zhou
China Three Gorges University, China
Mon-Af-Po1.09-06 [130]
Design and Test of Joints for HIAF Superconducting Di-
pole Magnet Prototype
Dongsheng Ni, Yuquan Chen, Lizhen Ma, Wei Wu, et al.
Institute of Modern Physics CAS, China
Mon

66
Mon-Af-Po1.09-07 [131]
Iseult-Neurospin 1500 A Currents Leads: Conceptual and
Experimental Results
Francois-Paul Juster, Lionel Quettier, et al.
CEA, France
Mon-Af-Po1.09-08 [132]
MgB2 superconductive short winding joints: mathemati-
cal prevision of current behaviours and experimental
validations
Giovanni Valesi, Alessio Capelluto, et al.
ASG superconductors SpA, Genoa, Italy
Mon-Af-Po1.09-09 [133]
Design, Testing and Commissioning of 25.7 kA HTS Cur-
rent Leads
Guido Consogno, Michael Boersch, Pascal Erni, et al.
WEKA AG
Mon-Af-Po1.09-10 [134]
Manufacturing and Qualification Test of ITER Busbar
Joint
Hyungjun Kim, Chen-yu Gung, Yury Ilin, et al.
ITER Organization, France
Mon-Af-Po1.09-11 [135]
Design and Performance Results of Optimal Vapor-
Cooled MgB2 Current Leads for a 1.5 T MRI Magnet
Jiman Kim, Haigun Lee, Yoon Hyuck Choi, et al.
Dep. of Materials Sci.&Eng., Korea University, Seoul, Korea
Mon-Af-Po1.09-12 [136]
Development of 52 kA HTS Current Leads for the ITER
CS Magnet Test Application
Kaizhong Ding, Tingzhi Zhou, Kun Lu, et al.
Institute of Plasma Physics, CAS, China
Mon-Af-Po1.09-13 [137]
Performance of a HTS Persistent Current System for
REBCO pancake coil
Kohki Takahashi, Tomoya Hase, Satoshi Awaji, et al.
IMR, Tohoku University, Japan
Mon-Af-Po1.09-14 [138]
Development of Vapor-cooled Current Leads for LTS
magnet in the EMPS
Myung Su Kim and Yeon Suk Choi
Mon

67
Mon-Af-Po1.09-15 [139]
Overview of JT-60SA HTS current lead manufacture and
testing
Reinhard Heller, Walter Fietz, Mathias Heiduk, et al.
Karlsruhe Institute of Technology, Germany
Mon-Af-Po1.09-16 [140]
Electrical joints of pure aluminum stabilised sc conduc-
tors
Sebi Curreli, Pasquale Fabbricatore, et al.
Universita e INFN Genova (IT), Genoa, Italy
Mon-Af-Po1.09-17 [141]
A Prototype of a 500 A class Bi-2223/AgAu Current Lead
for a Conduction Cooled Superconducting Magnet
Takehisa Tsurudome, Jun Yoshida, Yukio Mikami, et al.
Sumitomo Heavy Industries, Ltd., Japan
Mon-Af-Po1.09-18 [142]
Lead-free persistent mode joints between NbTi wires
Timothy Davies, Tayebeh Mousavi, Adrian Thomas, et al.
Department of Materials, University of Oxford, UK
Mon-Af-Po1.09-19 [143]
Optimization of 2G HTS Current Leads Working at Exter-
nal Magnetic Field
Vasily Zubko, Vitaly Vysotsky, Sergey Fetisov, et al.
Russian Scientific R&D Cable Institute, Russia
Mon-Af-Po1.09-20 [144]
Current transport characteristics of a superconducting
joint between REBCO conductors made by a novel
method
Yoshinori Yanagisawa, Takeshi Ueno, et al.
RIKEN, Japan
Mon-Af-Po1.09-21 [145]
Reliability Study on Using a Single Equivalent Connec-
tion Layer in Finite Element Models for Coated Conduc-
tors’ Joint
Yunhao Pan, Wei Wu, Jie Sheng, Yawei Wang, et al.
Shanghai Jiao Tong University
Mon-Af-Po1.09-22 [146]
Resistance of splices in the LHC Main Superconducting
Magnet Circuits at 1.9 K
Arjan Verweij, Andrzej Siemko, et al.
Mon

68
Quench and Normal Zone Behavior
Mon-Af-Po1.10-01 [147]
The latest observations from results of comprehensive
computer simulation of the NHMFL all-superconducting
32T magnet quench tests
Andrey Gavrilin, Hubertus Weijers, et al.
NHMFL / FSU, Tallahassee, FL, USA
Mon-Af-Po1.10-02 [148]
Quench and Recovery Characteristics of Racetrack Coil
for Large-capacity Wind Generator
Anfeng Zhao, Binbin Zhu, Xingbin Huang, et al.
Shanghai Jiao Tong University, China
Mon-Af-Po1.10-03 [149]
Experiments and Numerical Model of Quench Process
Generated by Magnetic Disturbance in 2G HTS Tapes
Anfeng Zhao, Binbin Zhu, Xingbin Huang, et al.
Mon-Af-Po1.10-04 [150]
Quench propagation measurements on 2 km MgB2 coil
up to 4 T
Christophe Berriaud, Julien Avronsart, et al.
CEA Saclay / Irfu, France
Mon-Af-Po1.10-05 [151]
Comparison of Measured and Simulated Quench Behav-
iors of Superconducting Magnets for Jefferson Lab’s 11
GeV Super High Momentum Spectrometer
Eric Sun, Paul Brindza, Steven Lassiter, et al.
Jefferson Lab, USA
Mon-Af-Po1.10-06 [152]
Development of Quench Antennas for Quench Detection
in Nb3Sn Magnets
Gerard Willering, Matthias Probst, Marta Bajko, et al.
Mon-Af-Po1.10-07 [153]
Quench Propagation Velocity and Hot Spot Temperature
assessments in Nb3Sn Racetrack Model Coils using ana-
lytical and Finite Element Modelling approaches
Hugo Bajas, Marta Bajko, Juan Carlos Perez, et al.
Mon

69
Mon-Af-Po1.10-08 [154]
Quench Behaviour of a Metallic Cladding REBCO Coil
Containing Copper Strips for Outer Diameter Adjustment
Kwangmin Kim, Kabindra Bhattarai, Kwanglok Kim, et al.
National High Magnetic Field Laboratory
Mon-Af-Po1.10-09 [155]
Quench analysis and protection design of SECRAL II su-
perconducting magnet
Shijun Zheng, Wei Wu, Tongjun Yang, Beimin Wu, et al.
Institute of Modern Physics, CAS, China
Mon-Af-Po1.10-10 [156]
Influence of local critical current degradation on quench
characteristics of a ReBCO coil
Momoe Ide, Daisuke Miyagi, Makoto Tsuda, et al.
Tohoku University, Japan
Mon-Af-Po1.10-11 [157]
Experimental Study of Quench Performance for Super-
conducting Coil with YBCO Coated Conductors
Panpan Chen and Jiahui Zhu
China Electric Power Research Institute, China
Mon-Af-Po1.10-12 [158]
Unbalanced Torque in High Magnetic Field No-Insulation
REBCO Pancake Magnet after Quench
So Noguchi, Ryosuke Miyao and Seungyong Hahn
Hokkaido University, Nat. High Magnetic Field Lab., Japan
Mon-Af-Po1.10-13 [159]
A Numerical Method for Simulating the Quench Behavior
of Superconductors
Wei Pi, Yinshun Wang, Jin Dong and Xiaochuan Shi
North China Electric Power University, China
Mon-Af-Po1.10-14 [160]
A Study on Post-Quench Behaviors of No-insulation HTS
Magnet under Over-Current Conditions
Yoon Hyuck Choi, Haigun Lee, Jung-bin Song, et al.
Dep. of Materials Science and Engineering, Korea University
Mon-Af-Po1.10-15 [161]
Investigation on Thermal and Electrical Characteristics
of MgB2 Magnet Using Partial-Insulation Winding Tech-
nique
Young-gyun Kim, Haigun Lee, Jiman Kim, et al.
Dep. of Mat. Sci. and Eng., Korea University, Seoul, Korea
Mon

70
Mon-Af-Po1.10-16 [162]
Remarkable difference in thermal runaway behavior be-
tween a Ni-alloy reinforced Bi-2223 coil and REBCO coil
Yu Suetomi, Yoshinori Yanagisawa, et al.
RIKEN, Japan
Mon-Af-Po1.10-17 [163]
Experimental and numerical analysis of quench charac-
teristics on a HTS coil by fault disturbance in HTS gener-
ator
Zhen Huang
Cryogenics for Magnet Cooling
Mon-Af-Po1.11-01 [164]
Development of a 1.5 Tesla whole-body MRI Magnet with
a very low helium inventory
Adam Johnstone, Simon Calvert, et al.
Siemens Healthcare, Germany
Mon-Af-Po1.11-02 [165]
Low vibration vapour shielded cryostats for wide bore
high field magnets
Neil Clarke, Roman Viznichenko, Joe Brown, et al.
Oxford Instruments, United Kingdom
Mon-Af-Po1.11-03 [166]
Cool-down of LTS magnets by a closed loop helium gas
flow
Francesco Dioguardi
DH Industries BV, the Netherlands
Mon-Af-Po1.11-04 [167]
Thermal characteristics of a prototype HTS quadrupole
magnet for In-flight fragment separator of RISP
Seokho Kim, Heecheol Park, Changhyung Lee, et al.
Changwon National University, Korea
Mon-Af-Po1.11-05 [168]
Cryogenic technologies of the NICA accelerator complex
Iuliia Mitrofanova, Nikolay Agapov, et al.
JINR, Russia
Mon-Af-Po1.11-06 [169]
Operation of the helium cryogenic system for the hybrid
superconducting outsert at CHMFL
Junjie Li, Zheng Rong Ouyang, Lei Shi, Xin Ai, et al.
CHFML, High Field Magnet Laboratory, CAS, China
Mon

71
Mon-Af-Po1.11-07 [170]
Design and performance analysis of a cryostat for
pulsed high magnetic field using a small scale helium
liquefaction system
Mengyu Liu, Shaoliang Wang and Liang Li
HUST, Huazhong University of Science & Technology, China
Mon-Af-Po1.11-08 [171]
Design and Research of Cryostat for 3W1 SC Wiggler
Magnet
Miaofu Xu, Rui Ge, Lin Bian and Xiangzhen Zhang
IHEP, Institute of High Energy Physics, CAS, China
Mon-Af-Po1.11-09 [172]
Design and construction of the magnet-cryostat for the
SuperKEKB Interaction Region
Norihito Ohuchi, Yasushi Arimoto, et al.
KEK, Japan
Mon-Af-Po1.11-10 [173]
Cryogenic Oscillating Heat Pipe for Conduction-cooled
Superconducting Magnets
Qing Liang, Yi Li and Qiuliang Wang
Mon-Af-Po1.11-11 [174]
Cryogen Recondensed Cooling System for Electron
Beam Ion Source Employing 7 T Superconducting Sole-
noid Magnet
Su-hun Kim, Se-hee Lee and Seyong Choi
Kyungpook National University, Korea
Mon-Af-Po1.11-12 [175]
Cooling experiment analysis of a prototype thermal si-
phon system for single crystal ingot growth magnet
Woo Seung Lee, Kwang Myung Park, Chu Yong, et al.
JH Engineering Corp., Korea
Mon-Af-Po1.11-13 [176]
Speed up the cooling process of superconducting mag-
nets by applying a large cooling capacity Stirling cry-
ocooler
Xin Qiao, Daming Sun, Ya Xu, Qie Shen, Ning Zhang, et al.
Inst. of Refriger. and Cryogenics, Zhejiang University, China
Mon-Af-Po1.11-14 [177]
Liquid nitrogen level detection method for the safe oper-
ation of onboard cryostats of high-temperature super-
conducting maglev vehicles under vibration condition
Yu Ren, Yihuan Xu, Zhang Yulei, Yong Zhang, et al.
Mon

72
Power Converters
Mon-Af-Po1.12-01 [178]
Design and Preliminary Test Results of the 60T Pulsed
High Magnetic Field Facility at Xi'an Jiaotong University
Chengxi Jiang, Hongfa Ding, Liang Li, et al.
Mon-Af-Po1.12-02 [179]
EMC tests at the location of the DCCT and ADC calibra-
tion laboratory at FAIR project
Andrzej Stafiniak, Horst Welker, et al.
GSI, Darmstadt, Germany
Mon-Af-Po1.12-03 [180]
Ramping Injector Power Supply for Dipole Magnets
Dimitrios Papathanasiou, Bart-Jan Sustronk, et al.
Ampulz, the Netherlands
Mon-Af-Po1.12-04 [181]
A novel digital magnet power supply approach
Jan Marjanovič, Denis Molaro, Enrico Braidotti, et al.
CAEN ELS s.r.l., France
Mon-Af-Po1.12-05 [182]
The implement of control and date acquisition system
for the 100 T pulsed high magnetic field facility at
WHMFC
Jiangtao Shi, Xiaotao Han, Jianfeng Xie, et al.
Mon-Af-Po1.12-06 [183]
Research of Active Regulation for High-Stability Flat-Top
Pulsed High Magnetic Field
Jun Zhou, Hongfa Ding, Zhangfei Zhao, et al.
Mon-Af-Po1.12-07 [184]
Driving and protecting superconducting hybrid magnets
Lou van Lieshout, Walter Zunnebeld, et al.
Ampulz, the Netherlands
Mon-Af-Po1.12-08 [185]
Cascaded Multilevel Converter with Floating Capacitors
for a small tokamak, PHiX
Masamichi Murayama, Hiroyuki Sugino, et al.
Tokyo Institute of Technology, Japan
Mon

73
Mon-Af-Po1.12-09 [186]
Upgrade of the Grenoble High Magnetic Field Facility
Romain Barbier, François Debray, Rémi Jaymond, et al.
LNCMI-EMFL-CNRS, France
Mon-Af-Po1.12-10 [187]
Indirectly cooled superconducting power supply for the
CMD-3 thin solenoid
Sergey Karpov, Alexey Bragin, Alexander Ruban, et al.
Budker Institute of Nuclear Physics, Novosibirsk, Russia
Mon-Af-Po1.12-11 [188]
Research of a new DC breaker based on the electromag-
netic forming technology for Battery power supply of
long pulsed magnet
Tonghai Ding, Xiaoxuan Sun, Ziqiang Song, et al.
Mon-Af-Po1.12-12 [189]
Design of an active ripple compensator for the 50 T high-
stability flat-top pulsed magnetic field
Yongheng Huang, Hongfa Ding, Jun Zhou, et al.
Mon-Af-Po1.12-13 [190]
Design of a hybrid power supply for the 65 T high-stabil-
ity flat-top pulsed magnetic field
Hongfa Ding, Yongheng Huang, Jun Zhou, et al.
Mon-Af-Po1.12-14 [191]
Development of a new high stability of power supply in
the superconducting system
Bao-sheng Wang, Chen-yao Liu, Kuo-bin Liu, et al.
Nat. Synchr. Radiation Research Center, Hsinchu, Taiwan
Mon-Af-Po1.12-15 [192]
Research on operation strategy of the pulse generator
power system energizing the out coil of the 100 Tesla
magnet
Yun Xu, Taiqiang Sun, Zhangfei Zhao, et al.
Mon-Af-Po1.12-16 [193]
Development of Real-time Monitoring System of the 100
MVA/100 MJ Flywheel Pulse Generator System
Yun Xu, Taiqiang Sun, Zhangfei Zhao, et al.
Mon

74
Mon-Af-Po1.12-17 [194]
A new three-level repetitive pulse magnetic field power
supply system
Yun Xu, Kaiwen He, Siqi Huang, Jinhao Li, et al.
Mon-Af-Po1.12-18 [195]
Modified Design of Power Supply System for 100 Tesla
Pulsed Magnetic Field
Hongfa Ding, Zhangfei Zhao, Chengxi Jiang, et al.
Mon-Af-Po1.12-19 [196]
Construction and Test of Three-coil Magnet Power Sup-
ply System for High Pulsed Magnetic Field
Zhangfei Zhao, Hongfa Ding, Chengxi Jiang, et al.
Oral Session 4 15:00 - 16:30 G102-103 Room
JT-60
Session Chairs: Subrata Pradhan and Neil Mitchell
Mon-Af-Or4-01 15:00
[Invited] JT-60SA Magnet System Status
Sam Davis, Antonio Cucchiaro, Christophe Mayri, et al.
Fusion for Energy, F4E, Barcelona, Spain
Mon-Af-Or4-02 15:30
Vacuum Pressure Impregnation for Central Solenoid of
JT-60SA
Haruyuki Murakami, Kaname Kizu, et al.
Nat. Inst. for Quantum and Radiological Sci.&Techn., Japan
Mon-Af-Or4-03 15:45
Completion of ENEA’s procurement for 9 TF coils of JT-
60SA tokamak
Gian Mario Polli, Antonio Cucchiaro, et al.
ENEA FSN, Italy
Mon-Af-Or4-04 16:00
Progress of the JT-60 SA Toroidal Field coils tests in the
Cold Test Facility
Walid Abdel-Maksoud, Laurent Genini, et al.
CEA, Saclay, France
Mon-Af-Or4-05 16:15
Development of a new generic analytical modeling of AC
coupling losses in cable-in-conduit conductors (CICCs).
Alexandre Louzguiti, Alexandre Torre, et al.
CEA, Saclay, France
Mon

75
Oral Session 5 15:00 - 16:30 Emerald Room
NMR Magnets and Novel Medical Applications
Session Chairs: Qiuliang Wang and Michael Parizh
Mon-Af-Or5-01 15:00
Design and technical development of a high-resolution
1.3 GHz NMR magnet
Yoshinori Yanagisawa, Mamoru Hamada, et al.
RIKEN, Japan
Mon-Af-Or5-02 15:15
Fabrication and Testing of Bi-2223 Insert Coils for High
Field NMR Magnets
William Marshall, Mark Bird, et al.
National High Magnetic Field Laboratory, Tallahassee, USA
Mon-Af-Or5-03 15:30
Development of liquid nitrogen cooled RE-Ba-Cu-O mag-
net for NMR use
Gen Nishijima, Hitoshi Kitaguchi, et al.
National Institute for Materials Science, Japan
Mon-Af-Or5-04 15:45
Development Progress of a 9.4 T 100 mm Metal-Clad No-
Insulation All-REBCO High-Resolution NMR Magnet
Cooled by Conduction
Sanggap Lee, Seungyong Hahn, Sangwon Yoon, et al.
Mon-Af-Or5-05 16:00
Control design of a magnetic catheter navigation system
for cardiac arrhythmias
Jianhua Liu, Housheng Wang and Qiuliang Wang
Mon-Af-Or5-06 16:15
Design study of an HTS magnet with REBCO coils for
heavy ion beam-line experiments
Kei Koyanagi, Masahiro Yoshimoto, Toru Ogitsu, et al.
TOSHIBA Corporation, Japan
Mon

76
Oral Session 6 15:00 - 16:30 Auditorium
Dipole Accelerator Magnets beyond 16 T
Session Chairs: Pierre Vedrine and Bernhard Auchmann
Mon-Af-Or6-01 15:00
[Invited] High Field Twin-aperture Dipole Magnet R&D for
SPPC Pre-study
Qingjin Xu, Kai Zhang, Chengtao Wang, et al.
Institute for High Energy Physics, CAS, China
Mon-Af-Or6-02 15:30
Design of a Nb3Sn 16 T block dipole for the Future Circu-
lar Collider
Clement Lorin, Maria Durante, Helene Felice, et al.
CEA/IRFU,Centre d'etude de Saclay Gif-sur-Yvette, France
Mon-Af-Or6-03 15:45
Magnetic and mechanical design of a 16 T common coil
dipole for FCC
Fernando Toral and Javier Munilla
CIEMAT, Spain
Mon-Af-Or6-04 16:00
Conceptual design of a 16 T cosθ bending dipole for the
Future Circular Collider
Vittorio Marinozzi, Giovanni Bellomo, et al.
University of Milan / INFN, Italy
Mon-Af-Or6-05 16:15
Development and test of REBCO canted cosθ dipole
coils with CORC® wires
Andy Lin, Daniel Dietderich, et al.
Lawrence Berkeley National Laboratory, Berkeley, CA, USA
Mon

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