S
S. Mizumaki
Researcher at Toshiba
Publications - 6
Citations - 159
S. Mizumaki is an academic researcher from Toshiba. The author has contributed to research in topics: Superconducting magnet & Magnet. The author has an hindex of 5, co-authored 6 publications receiving 143 citations.
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Journal ArticleDOI
The ATLAS central solenoid
Akira Yamamoto,Yasuhiro Makida,R. Ruber,R. Ruber,Yoshikuni Doi,Tomiyoshi Haruyama,F. Haug,H. Ten Kate,Masanori Kawai,T. Kondo,Y. Kondo,J. Metselaar,S. Mizumaki,G. Olesen,O. Pavlov,S. Ravat,E. Sbrissa,Kazuhiro Tanaka,T. Taylor,T. Taylor,Hiroshi Yamaoka +20 more
TL;DR: The ATLAS detector at the CERN LHC is equipped with a superconducting magnet system consisting of three large toroids and a solenoid as discussed by the authors, which provides a 2 T field for spectrometry of the particles emanating from the interaction of the counter-rotating beams of hadrons.
Journal ArticleDOI
A thin superconducting solenoid magnet for particle astrophysics
Akira Yamamoto,Yasuhiro Makida,Hiroshi Yamaoka,H. Ohmiya,Kazuhiro Tanaka,Tomiyoshi Haruyama,T. Yoshida,Koji Yoshimura,S. Matsuda,K. Kikuchi,Y. Ootani,S. Mizumaki +11 more
TL;DR: In this article, an extremely thin superconducting solenoid magnet is developed to investigate cosmic-ray antiparticles in the Universe, where the uniform solenoidal field is provided in a particle detector system to analyze the particle momentum.
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Development of a thin-wall superconducting magnet for the positron spectrometer in the MEG experiment
Wataru Ootani,W. Odashima,S. Kimura,T.M. Kobayashi,Yasuhiro Makida,T. Mitsuhashi,S. Mizumaki,R. Ruber,Akira Yamamoto +8 more
TL;DR: In this paper, a thin-wall superconducting magnet was developed for the positron spectrometer in the MEG experiment, which is specially designed to provide a gradient magnetic field to achieve good features of the spectrometers such as constant projected bending radius for monochromatic positrons and much quicker sweep of positrons than in the conventional uniform solenoidal field, which allows a stable operation of the positrons in a high rate muon beam.
Journal ArticleDOI
Performance of an ultra-thin superconducting solenoid for particle astrophysics
TL;DR: An extremely thin superconducting solenoid with a main diameter of 0.9 m and a length of 1.4 m has been fabricated for a balloon borne experiment in Antarctica to study anti-particles in cosmic rays as mentioned in this paper.
Journal ArticleDOI
The BESS-Polar Ultra-Thin Superconducting Solenoid Magnet and Its Operational Characteristics During Long-Duration Scientific Ballooning Over Antarctica
Y. Makida,Akira Yamamoto,Koji Yoshimura,Kenichi Tanaka,Jun-ichi Suzuki,Shinya Matsuda,Masaya Hasegawa,A. Horikoshi,R. Shinoda,Kenichi Sakai,S. Mizumaki,Reiko Orito,Y. Matsukawa,A. Kusumoto,John Mitchell,R. E. Streitmatter,Thomas Hams,M. Sasaki,N. Thakur +18 more
TL;DR: An ultra-thin superconducting solenoid has been developed for a cosmic-ray spectrometer ballooning over Antarctica, which is named BESS-Polar II.