DocumentCode
843093
Title
Magnetization studies of high Jc Nb3Sn strands
Author
Ghosh, A.K. ; Cooley, L.D. ; Moodenbaugh, A.R. ; Parrell, J.A. ; Field, M.B. ; Zhang, Y. ; Hong, S.
Author_Institution
Brookhaven Nat. Lab., Upton, NY, USA
Volume
15
Issue
2
fYear
2005
fDate
6/1/2005 12:00:00 AM
Firstpage
3494
Lastpage
3497
Abstract
Magnetization measurements have been made on several high Jc Nb3Sn strands fabricated by different internal-Sn designs. In general these conductors have high magnetization at low fields, often exhibiting flux-jumps that are characteristic of large superconductor diameter. The effective filament size deff is approximately the size of the sub-element because the filament pack within each sub-element is fully coupled. Dividing the filament pack of the sub-element by adding Ta is effective for reducing deff and magnetization instability. But, some residual coupling across the dividers seems to remain below 6 K, perhaps due to Ta3Sn. Implications for accelerator magnets are discussed.
Keywords
magnetisation; multifilamentary superconductors; niobium alloys; superconducting tapes; tantalum alloys; tin alloys; type II superconductors; Nb3Sn; Nb3Sn strands; Ta3Sn; accelerator magnets; effective filament diameter; effective filament size; flux jumps; internal-Sn designs; magnetization instability; magnetization measurements; residual coupling; superconducting filaments; superconducting wires; Accelerator magnets; Conductors; Copper; Magnetic field measurement; Magnetization; Niobium; Superconducting filaments and wires; Superconducting magnets; Temperature distribution; Tin; Effective filament diameter; magnetization measurement; niobium-tin compounds; superconducting filaments and wires;
fLanguage
English
Journal_Title
Applied Superconductivity, IEEE Transactions on
Publisher
ieee
ISSN
1051-8223
Type
jour
DOI
10.1109/TASC.2005.848995
Filename
1440425
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