Goldfarb, R.
, Goodrich, L.
, Pyon, T.
and Gregory, E.
(2001),
Suppression of Flux Jumps in Marginally Stable Niobium-Tin Superconductors, IEEE Transactions on Applied Superconductivity, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=30194
(Accessed October 11, 2025)
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Suppression of Flux Jumps in Marginally Stable Niobium-Tin Superconductors
Published
Author(s)
, , T Pyon, E. A. Gregory
Abstract
Niobium-tin superconductor wires with coalesced filaments may have reduced adiabatic stability. Magnetization measurements on such marginally stable conductors exhibit flux jumps, which appear as a sudden decrease in magnetization as the applied field is changed, caused by the unpinning of flux vortices and resistive heat generation. Flux jumps preclude estimation of the hysteresis loss from the area of the magnetization-versus-field loop. Here, we show that flux jumps can be minimized or suppressed during the measurement of hysteresis loss by immersing the specimen in helium liquid instead of helium gas. The better thermal conductivity of the liquid affords additional dynamic stability against flux jumps. This allows one to determine the loss upon field cycling and to calculate an effective filament diameter, often used to gauge losses and the extent of metallurgical interfilament coupling.Citation
IEEE Transactions on Applied Superconductivity
Volume
11
Issue
1
Pub Type
Journals
Download Paper
Keywords
AC losses, flux jumps, hysteresis losses, magnetization measurements, niobium-tin superconductors, superconductor stability
Citation
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Created February 28, 2001, Updated October 12, 2021