M
Masayoshi Wake
Researcher at KEK
Publications - 121
Citations - 942
Masayoshi Wake is an academic researcher from KEK. The author has contributed to research in topics: Superconducting magnet & Magnet. The author has an hindex of 16, co-authored 121 publications receiving 910 citations. Previous affiliations of Masayoshi Wake include Graduate University for Advanced Studies & Kyushu University.
Papers
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Journal ArticleDOI
Experimental demonstration of the induction synchrotron.
Ken Takayama,Ken Takayama,Yoshio Arakida,Tanuja Dixit,T. Iwashita,T. Kono,E. Nakamura,E. Nakamura,Kazunori Otsuka,Yoshito Shimosaki,Kota Torikai,Kota Torikai,Masayoshi Wake +12 more
TL;DR: An experimental demonstration of the induction synchrotron, the concept of which has been proposed as a future accelerator for the second generation of neutrino factory or hadron collider, and a superbunch permits more charge to be accelerated while observing the constraints of the transverse space-charge limit.
Journal ArticleDOI
Superbunch hadron colliders.
TL;DR: A novel concept of a high luminosity hadron collider using a multibunch stacking method employing barrier buckets at the injection into the collider and accelerated with a step voltage induced in the induction gaps is proposed.
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Observation of the acceleration of a single bunch by using the induction device in the KEK proton synchrotron.
Ken Takayama,Ken Takayama,Ken Takayama,Kunio Koseki,Kota Torikai,Kota Torikai,Akira Tokuchi,E. Nakamura,E. Nakamura,Yoshio Arakida,Yoshito Shimosaki,Masayoshi Wake,Tadaaki Kouno,Kazuhiko Horioka,Susumu Igarashi,T. Iwashita,Atsushi Kawasaki,Jun Ichi Kishiro,Jun Ichi Kishiro,Makoto Sakuda,Hikaru Sato,M. Shiho,M. Shiho,Masashi Shirakata,T. Sueno,Takeshi Toyama,Masao Watanabe,Isao Yamane +27 more
TL;DR: In this article, a single bunch in the KEK proton synchrotron was accelerated with an induction acceleration method from the injection energy of 500 MeV to 5 GeV.
Journal ArticleDOI
Fabrication of the shell-type Nb/sub 3/Sn dipole magnet at Fermilab
D.R. Chichili,Giorgio Ambrosio,N. Andreev,Emanuela Barzi,Shlomo Caspi,V.V. Kashikhin,P.J. Limon,R.M. Scanlan,Iouri Terechkine,J.C. Tompkins,Masayoshi Wake,S. Yadav,Ryuji Yamada,V. Yarba,Alexander V. Zlobin +14 more
TL;DR: A 43.5 mm aperture dipole magnet with a nominal field of 11 T is being fabricated at Fermilab as discussed by the authors, which is based on a two-layer shell-type coil structure made of Rutherford-type Nb/sub 3/Sn cable with wind and react technology.
Journal ArticleDOI
Feasibility Study of ${\rm Nb}_{3}{\rm Al}$ Rutherford Cable for High Field Accelerator Magnet Application
Ryuji Yamada,Akihiro Kikuchi,Giorgio Ambrosio,N. Andreev,Emanuela Barzi,C. Cooper,Sandor Feher,V.V. Kashikin,M.J. Lamm,Igor Novitski,Takao Takeuchi,M.A. Tartaglia,Daniele Turrioni,Arjan Verweij,Masayoshi Wake,Gerard Willering,Alexander V. Zlobin +16 more
TL;DR: The Nb3Al strand has a non-copper Jc of about 844 A/mm2 at 15 Tesla at 4.2 K, a copper content of 50%, and filament size of about 50 microns as discussed by the authors.