M
Masato Murakami
Researcher at Shibaura Institute of Technology
Publications - 812
Citations - 16032
Masato Murakami is an academic researcher from Shibaura Institute of Technology. The author has contributed to research in topics: Superconductivity & Flux pinning. The author has an hindex of 54, co-authored 769 publications receiving 15031 citations. Previous affiliations of Masato Murakami include Nagoya University & Vienna University of Technology.
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The effect of geometry on the trapped magnetic field in bulk superconductors
TL;DR: In this paper, the effect of geometry on the trapped magnetic field in bulk Y-Ba-Cu-O superconductors by varying the thickness of the superconductor was studied.
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Melt-processed LRE-Ba-Cu-O superconductors and prospects for their applications
TL;DR: In this article, the properties and characteristic flux pinning of OCMG-processed LREBCO (LRE: Nd,Sm,Eu) superconductors are described on the basis of their study during the last several years.
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Scaling of pinning forces in NdBa2Cu3O7-δ superconductors
TL;DR: In this article, the scaling of the volume pinning forces, Fp=jc×Ba, is performed versus the reduced fields bf=Ba/Bfp (where Ba is the applied field, and Bfp denotes the peak position of Fp,max) and h=Ha/Hirr (where Hirr denotes the irreversibility field).
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Mechanical Properties of Gd123 Bulk Superconductors at Room Temperature
A. Murakami,Kazumune Katagiri,K. Kasaba,Yoshitaka Shoji,Koshichi Noto,Hidekazu Teshima,Mitsuru Sawamura,Masato Murakami +7 more
TL;DR: In this paper, tensile tests in the direction of the a/b-or c-axis of small specimens cut from bulk samples have been carried out at 293K and Young's modulus in the c-direction, 10MPa and 37GPa, were quite low compared with those mentioned above.
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Round robin tests on large grain melt processed Sm–Ba–Cu–O bulk superconductors
David A. Cardwell,Masato Murakami,Matthias Zeisberger,Wolfgang Gawalek,Raquel González-Arrabal,Michael Eisterer,Harald W. Weber,G. Fuchs,Gernot Krabbes,A. Leenders,Herbert C. Freyhardt,N. Hari Babu +11 more
TL;DR: In this article, the trapped flux profiles were measured by scanning Hall probe by the participating groups and were found to agree to within approximately 7% over the measurement period when the effects of incomplete flux penetration in some of the tests were taken into account.