Title :
Position and amplitude of proximity effect peaks in the magnetization curves of NbTi/Cu and NbTi/CuMn multifilamentary strands
Author :
Sumption, M.D. ; Marken, K.R. ; Collings, E.W.
Author_Institution :
Battelle Memorial Inst., Columbus, OH, USA
fDate :
3/1/1991 12:00:00 AM
Abstract :
The magnitude and position of proximity-effect-related magnetization peaks in the M-H loops of multifilamentary NbTi superconductive composites have been studied. M-H loops were taken at T=4.2 K as a function of field-sweep amplitude, HM, for several specimens. Three regimes emerge: (i) low field, where proximity effects are mainly shielding in nature; (ii) high field, where there are anomalous trapping effects: and (iii) an intermediate-field region, corresponding to a crossover between these two regimes. Correlations are made between these regimes and the specimen parameters HC1,NbTi and Hp,NbTi. A relationship is found between the magnitude of the maximum of the high-field magnetization and the breakdown field of the copper
Keywords :
composite superconductors; magnetic hysteresis; magnetisation; niobium alloys; proximity effect; titanium alloys; type II superconductors; 4.2 K; Cu; CuMn; M-H loops; NbTi; NbTi-Cu; NbTi-CuMn; anomalous trapping effects; breakdown field; field-sweep amplitude; high field; intermediate-field region; low field; magnetization curves; multifilamentary NbTi superconductive composites; multifilamentary strands; proximity effect peaks; shielding; Copper; Doping; Electric breakdown; Hysteresis; Magnetization; Niobium compounds; Proximity effect; Superconductivity; Titanium compounds; Wires;
Journal_Title :
Magnetics, IEEE Transactions on
