TY - JOUR
T1 - DESIGN AND PERFORMANCE OF SUPERCONDUCTING MAGNETS FOR HYBRID MAGNETS.
AU - Noto, Koshichi
AU - Watanabe, Kazuo
AU - Hoshi, Akira
AU - Muto, Yoshio
AU - Nagamura, Junichi
AU - Osaki, Osamu
AU - Sumiyoshi, Yukihiro
AU - Hamajima, Takataro
AU - Satow, Takashi
AU - Murai, Takashi
PY - 1986/12/1
Y1 - 1986/12/1
N2 - Design, construction and performance of three superconducting magnets for the hybrid magnets installed in the High Field Laboratory for Superconducting Materials are described in detail. The compact solenoid, SM-3, without fully cryostable design forms the outer part of the most compact hybrid magnet in the world, HM-3 (32 mm bore, 20 T). Fully cryostable superconducting magnet designed under the Steckly criterion, SM-2, is the outer part of HM-2 (52 mm bore, 23 T), which has been most attractive to many experimentalists. SM-1, the outer part of HM-1 (32/52 mm bore, 31/28 T), with the Williams cryostability criterion is the world's largest of the superconducting magnets which employ Ti-doped Nb//3Sn multifilamentary conductors and can generate more than 12 T.
AB - Design, construction and performance of three superconducting magnets for the hybrid magnets installed in the High Field Laboratory for Superconducting Materials are described in detail. The compact solenoid, SM-3, without fully cryostable design forms the outer part of the most compact hybrid magnet in the world, HM-3 (32 mm bore, 20 T). Fully cryostable superconducting magnet designed under the Steckly criterion, SM-2, is the outer part of HM-2 (52 mm bore, 23 T), which has been most attractive to many experimentalists. SM-1, the outer part of HM-1 (32/52 mm bore, 31/28 T), with the Williams cryostability criterion is the world's largest of the superconducting magnets which employ Ti-doped Nb//3Sn multifilamentary conductors and can generate more than 12 T.
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M3 - Article
AN - SCOPUS:0022945199
VL - 33
SP - 238
EP - 250
JO - Science Reports of the Rerearch Institutes Tohoku University Series A-Physics
JF - Science Reports of the Rerearch Institutes Tohoku University Series A-Physics
SN - 0040-8808
IS - 2
ER -