KONDO Yoshinari | National Laboratory for High Energy Physics (KEK)
スポンサーリンク
概要
関連著者
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YAMAMOTO Akira
National Cardiovascular Center
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DOI Yoshikuni
National Laboratory for High Energy Physics
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Suzuki Shoji
National Cardiovascular Center, Dep of Cardiovascular Dynamics
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三戸 利行
National Institute for Fusion Science
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Kanai M
Inst. Physical And Chemical Res. (riken) Saitama Jpn
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Doi Yoshikuni
National Laboratory For High Energy Physics (kek)
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Kawai M
Riken (inst. Physical And Chemical Res.) Saitama Jpn
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YAMAOKA Hitoshi
RIKEN (The Institute of Physical and Chemical Research)
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Yamaoka H
Inst. Physical And Chemical Res. (riken) Hyogo Jpn
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Yamaoka Hitoshi
Spring-8 Project Team The Institute Of Physical And Chemical Research (riken)
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MITO Toshiyuki
National Institute for Fusion Science
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Kawai Masayuki
Faculty Of Science Tokai University
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Kimura Nobuhiro
National Laboratory For High Energy Physics (kek)
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Yamamoto A
Chiba Works Kawasaki Steel Corporation
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Kawai M
Surface Chemistry Laboratory
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HARUYAMA Tomiyoshi
National Laboratory for High Energy Physics (KEK)
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YAMAOKA Hiroshi
National Laboratory for High Energy Physics (KEK)
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ARAOKA Osamu
National Laboratory for High Energy Physics (KEK)
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TADANO Mikito
National Laboratory for High Energy Physics (KEK)
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KONDO Yoshinari
National Laboratory for High Energy Physics (KEK)
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KAWAI Masanori
National Laboratory for High Energy Physics (KEK)
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KICHIMI Hiromichi
National Laboratory for High Energy Physics (KEK)
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Kawai M
Institute Of Molecular And Cellular Biosciences University Of Tokyo
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Suzuki Shoji
National Laboratory For High Energy Physics (kek)
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Kinugasa Masanori
Research An Development Tayca Co. Ltd.
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HIRABAYASHI Hiromi
National Laboratory for High Energy Physics
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Hirabayashi H
National Laboratory For High Energy Physics (kek)
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INOUE Hitoshi
National Laboratory for High Energy Physics (KEK)
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Inoue Hitoshi
National Center For Science And Information Systems
著作論文
- Quench Characteristics and Operational Stability of the TOPAZ Thin Superconducting Solenoid
- Performance of the TOPAZ Thin Superconducting Solenoid Wound with Internal Winding Method