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Thu-Af-Po4.03-09 [42] Improvement of Field Simulation Concept of Staggered Undulator with HTS YBCO Bulk S.D. Chen, C.A. Chiang, C.M. Yang, H.W. Luo, et al. National Synchrotron Radiation Research Center, Taiwan Thu-Af-Po4.03-10 [43] Fast Cycling Superconducting Quadrupole Sergey Kozub, Evgeny Kashtanov, Igor Bogdanov, et al. Institute for High Energy Physics, Russia Thu-Af-Po4.03-11 [44] Dynamic Behaviour of Laminated Magnets with Solid Tension Bars Thomas Zickler CERN, Geneva, Switzerland Thu-Af-Po4.03-12 [45] Test results of the first superconducting undulator prototype at the SSRF Jieping Xu, Yi Ding, Jian Cui, Ming Li, et al. Shanghai Institute of Applied Physics, CAS, China Poster Session 4.04 13:45 - 15:30 Posters Area Magnets for MRI Thu-Af-Po4.04-01 [46] The FuSuMaTech initiative: Synergy with Industry and Impact on the Future Superconducting Magnet Technology Antoine Dael, Glyn Kirby, David Mazur, et al. CEA, France Thu-Af-Po4.04-02 [47] Investigation of Temporal Stability of a Persistent Current Mode Prototype MgB2 Coil Byeong-ha Yoo, Haigun Lee, Jong Cheol Kim, et al. Dep. of Materials Sci.&Eng., Korea UniversitY, Korea Thu-Af-Po4.04-03 [48] A Tabletop Liquid-Helium-Free, Persistent-Mode 1.5- T/70-mm MgB2 Osteoporosis MRI: Two Magnet Design Options Dongkeun Park, Timing Qu, Min Cheol Ahn, et al. MIT, Francis Bitter Magnet Laboratory, USA Thu-Af-Po4.04-04 [49] Enlarged bore 11.74 T magnet for brain research application Gabriella Norcia, Alessio Capelluto, et al. ASG Superconductors S.p.A., Genova, Italy Thu 163
Thu Thu-Af-Po4.04-05 [50] Auxiliary equipment commissioning of the 11.7 T MRI Iseult magnet Hervé Lannou, Philippe Bredy, Thierry Schild, et al. CEA, France Thu-Af-Po4.04-06 [51] Estimation method of optimal amount of overshooting current for temporally uniform magnetic field in a conduction-cooled ReBCO coil for MRI applications Hideaki Miura, Jun Miyazaki, Daisuke Miyagi, et al. Tohoku University, Japan Thu-Af-Po4.04-07 [52] Design and development of conduction cooled MgB2 magnets for 1.5 and 3.0 T full body MRI systems Michael Tomsic, Dave Doll, Matt Rindfleisch, et al. Hyper Tech Research Inc., USA Thu-Af-Po4.04-08 [53] FEM Modelling Studies of 3 T Cryogen Free MRI Magnet based on MgB2 conductor Milan Majoros, Mike Sumption, Ted Collings, et al. Ohio State University, USA Thu-Af-Po4.04-09 [54] Walk-Through MRI: Affordable Technology for Well-Patient Cancer Screening Peter Mcintyre, Joshua Kellams, et al. Texas A&M University, USA Thu-Af-Po4.04-10 [55] Magnetic Field Stability Improvement of HTS-MRI Magnet under Power Supply Driven Operation with a Micro Current Trimming Control Takeshi Kawashima, Takayuki Yachida, et al. Kyoto University, Japan Thu-Af-Po4.04-11 [56] Performance test of 1.5 T cryogen free orthopedic MRI magnet Valeriy Lysenko, Anton Bagdinov, et al. Lebedev Physical Inst. of the Russian Ac. of Sci., Russia Thu-Af-Po4.04-12 [57] The trapped magnetic field of a joint-less second-generation high temperature superconducting coil. Yali Zheng Luoyang Normal University, China 164
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WELCOME On behalf of the Organizing
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Table of Contents Quick reference
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Quick reference Conference website
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Parking There are plenty paid car p
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Conference Banquet The conference b
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Author information Information for
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Visit 2 The European Space Research
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Busses for the technical visits wil
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Scientific Program Committee Name C
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Exhibitors Booth 1 CAEN ELS s.r.l.
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Booth 7 RUAG Space GmbH Stachegasse
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spinoff technologies in medical dia
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Booth 18 www.cryogenic.co.uk Cryoge
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Booth 23 Salzgitter Mannesmann Stai
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Booth 29 www.sigmaphi.fr Sigma Phi
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Booth 35 FEAC Engineering P.C. 61,
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Booth 40 Cryoworld B.V. Havenweg 11
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Booth 46 HTS-110 1B Quadrant Drive,
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Bruker EST www.bruker.com/best Gold
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is a leader in diagnostic imaging,
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41
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Floorplan Conference center, ground
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Technical Program Sunday, August 27
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Oral Session 2 10:30 - 12:15 Emeral
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Poster Session 1 Session Chairs: Da
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Mon-Af-Po1.02-03 [15] Commissioning
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Poster Session 1.04 13:15 - 15:00 P
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Mon-Af-Po1.04-17 [47] A Study on th
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Mon-Af-Po1.04-32 [62] Optimization
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Mon-Af-Po1.05-09 [78] The performan
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Mon-Af-Po1.07-17 [109] Design and A
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Mon-Af-Po1.08-15 [124] Changes of s
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Mon-Af-Po1.09-15 [139] Overview of
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Mon-Af-Po1.10-08 [154] Quench Behav
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Mon-Af-Po1.11-07 [170] Design and p
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Mon-Af-Po1.12-09 [186] Upgrade of t
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Oral Session 9 17:00 - 18:30 G102-1
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Oral Session 11 08:45 - 10:15 G102-
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Oral Session 13 10:45 - 12:15 Audit
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Oral Session 15 10:45 - 12:15 Emera
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Tue-Af-Po2.01-08 [07] Magnetic Desi
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Tue-Af-Po2.02-13 [24] Field Measure
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Tue-Af-Po2.06-06 [70] Flux-regulati
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Tue-Af-Po2.06-25 [87] Research on a
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Tue-Af-Po2.06-41 [103] Design and A
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Tue-Af-Po2.07-16 [121] Effectivenes
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Tue-Af-Po2.08-02 Stacked tape HTS c
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Tue-Af-Po2.09-02 [153] Characteriza
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Tue-Af-Po2.12-05 [198] Multi Object
Page 114 and 115: Oral Session 17 15:00 - 16:30 Emera
Page 116 and 117: Plenary Session 3 17:00 - 18:45 Aud
Page 118 and 119: Wed-Mo-Pl6-05 10:05 A new understan
Page 122 and 123: Wed-Af-Po3.01-08 [08] 3D Magnetic a
Page 124 and 125: Wed-Af-Po3.02-13 [26] Basic Design
Page 126 and 127: Wed-Af-Po3.04-05 [41] Cryostat Desi
Page 128 and 129: Wed-Af-Po3.05-06 [57] Influence Ana
Page 130 and 131: Wed-Af-Po3.05-22 [73] Numerical Ana
Page 132 and 133: Wed-Af-Po3.06-12 [88] Characteristi
Page 134 and 135: Wed-Af-Po3.07-12 [103] Levitation s
Page 136 and 137: Wed-Af-Po3.08-12 [119] Design, fabr
Page 138 and 139: Wed-Af-Po3.09-05 [135] Influence of
Page 140 and 141: Wed-Af-Po3.10-04 [150] Structural o
Page 142 and 143: Poster Session 3.11 13:15 - 15:00 P
Page 144 and 145: Wed-Af-Po3.11-16 [181] Influence of
Page 146 and 147: Wed-Af-Po3.12-13 [196] A Facile Met
Page 148 and 149: Oral Session 23 15:00 - 16:30 Audit
Page 154 and 155: Oral Session 29 08:45 - 10:30 G102-
Page 158 and 159: Oral Session 33 11:00 - 12:45 G102-
Page 160 and 161: Thu-Af-Po4.01-08 [08] Construction
Page 162 and 163: Thu-Af-Po4.02-12 [26] Further devel
Page 166 and 167: Thu-Af-Po4.04-13 [58] Design Option
Page 168 and 169: Thu-Af-Po4.05-16 [74] Nonlinear Sen
Page 170 and 171: Thu-Af-Po4.05-32 [90] A Study on th
Page 172 and 173: Thu-Af-Po4.06-14 [106] Research on
Page 174 and 175: Poster Session 4.08 13:45 - 15:30 P
Page 176 and 177: Thu-Af-Po4.08-17 [137] Characteriza
Page 178 and 179: Thu-Af-Po4.09-16 [153] Quench Detec
Page 180 and 181: Thu-Af-Po4.10-13 [170] Numeric Anal
Page 182 and 183: Thu-Af-Po4.11-07 [185] Conceptual D
Page 184 and 185: Boat tour 18:00 - 19:30 Amsterdam B
Page 186 and 187: Bhattarai, Kabindra Or12-06 Bian, F
Page 188 and 189: Deng, Changdong Or10-05 Dhallé, Ma
Page 190 and 191: Huang, Lei Huang, Chen Huang, Jianf
Page 192 and 193: Kim, Young-gyun Kim, Chang-woo Kim,
Page 194 and 195: Liu, Hongwei Liu, Kai Liu, Xiaomei
Page 196 and 197: Oki, Soichiro Po3.12-14 Okunev, Iva
Page 198 and 199: Shin, Kyung-hun Shin, Hyung-seop Sh
Page 200 and 201: Wang, Zuoshuai Wang, Tao Wang, Shiy
Page 202 and 203: Zhang, Dong Zhang, Tianjue Zhang, H
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