MT25-ProgramBook
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Thu<br />
Thu-Af-Po4.04-05 [50]<br />
Auxiliary equipment commissioning of the 11.7 T MRI<br />
Iseult magnet<br />
Hervé Lannou, Philippe Bredy, Thierry Schild, et al.<br />
CEA, France<br />
Thu-Af-Po4.04-06 [51]<br />
Estimation method of optimal amount of overshooting<br />
current for temporally uniform magnetic field in a conduction-cooled<br />
ReBCO coil for MRI applications<br />
Hideaki Miura, Jun Miyazaki, Daisuke Miyagi, et al.<br />
Tohoku University, Japan<br />
Thu-Af-Po4.04-07 [52]<br />
Design and development of conduction cooled MgB2<br />
magnets for 1.5 and 3.0 T full body MRI systems<br />
Michael Tomsic, Dave Doll, Matt Rindfleisch, et al.<br />
Hyper Tech Research Inc., USA<br />
Thu-Af-Po4.04-08 [53]<br />
FEM Modelling Studies of 3 T Cryogen Free MRI Magnet<br />
based on MgB2 conductor<br />
Milan Majoros, Mike Sumption, Ted Collings, et al.<br />
Ohio State University, USA<br />
Thu-Af-Po4.04-09 [54]<br />
Walk-Through MRI: Affordable Technology for Well-Patient<br />
Cancer Screening<br />
Peter Mcintyre, Joshua Kellams, et al.<br />
Texas A&M University, USA<br />
Thu-Af-Po4.04-10 [55]<br />
Magnetic Field Stability Improvement of HTS-MRI Magnet<br />
under Power Supply Driven Operation with a Micro Current<br />
Trimming Control<br />
Takeshi Kawashima, Takayuki Yachida, et al.<br />
Kyoto University, Japan<br />
Thu-Af-Po4.04-11 [56]<br />
Performance test of 1.5 T cryogen free orthopedic MRI<br />
magnet<br />
Valeriy Lysenko, Anton Bagdinov, et al.<br />
Lebedev Physical Inst. of the Russian Ac. of Sci., Russia<br />
Thu-Af-Po4.04-12 [57]<br />
The trapped magnetic field of a joint-less second-generation<br />
high temperature superconducting coil.<br />
Yali Zheng<br />
Luoyang Normal University, China<br />
164