2000
DOI: 10.1109/77.828274
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Generation of 23.4 T using two Bi-2212 insert coils

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Cited by 41 publications
(19 citation statements)
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“…Due to the finite thermal energy of the magnetic flux-line lattice, all three materials have H* 10-15% below H c2 . Nb47Ti magnets can thus reach ~9 T at 4.2 K while Nb 3 Sn magnets can reach 20 to 22 T at 4.2 K. In principle, HTS and Chevrel-phase conductors can reach still higher fields; for example, Bi-2212 conductors were recently used to make fields up to 23 T [1]. However, HTS conductors are limited by their anisotropy, and both HTS and Chevrel-phase conductors have processing difficulties.…”
Section: Constraints On Use Of Superconductors For Magnetsmentioning
confidence: 99%
“…Due to the finite thermal energy of the magnetic flux-line lattice, all three materials have H* 10-15% below H c2 . Nb47Ti magnets can thus reach ~9 T at 4.2 K while Nb 3 Sn magnets can reach 20 to 22 T at 4.2 K. In principle, HTS and Chevrel-phase conductors can reach still higher fields; for example, Bi-2212 conductors were recently used to make fields up to 23 T [1]. However, HTS conductors are limited by their anisotropy, and both HTS and Chevrel-phase conductors have processing difficulties.…”
Section: Constraints On Use Of Superconductors For Magnetsmentioning
confidence: 99%
“…2 (right). Because the cost is not a constraint in the minimum volume design, a fraction of the current density is shuffled from the inner HTS section to the outer Nb 3 Sn section that result in more expensive, but smaller magnet. Consequently increases the field contribution of the outer section and thus larger volume gets filled with higher magnetic field, leading to increased stored energy.…”
Section: ) Minimum Volume Criterionmentioning
confidence: 99%
“…Slight degradation of the coil performance is observed due to thermal cycling after operation at 2 K [44]. Another Hitachi-developed HTS insert reminiscent of their 1996 coil is operated in this 21.1 T background field creating a field increment of almost 2 T for a record central field of 23.42 T [43,14].…”
Section: Brief History Of Insert Coilsmentioning
confidence: 99%
“…The Japanese national magnet lab, now part of NIMS 14 , embarked on a program towards a 23.5 T LTS/HTS NMR magnet, in collaboration with industry. Several small coils were tested in the 21.1 T, 50-mm bore superconducting magnet of the Tsukuba Magnet Lab [36].…”
Section: Brief History Of Insert Coilsmentioning
confidence: 99%
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