THE EFFECT OF THE TIME-DEPENDENT ANGULAR-DISTRIBUTION OF THE INTERGRAIN MAGNETIC-FIELD ON THE TRANSPORT CRITICAL-CURRENT IN AG-(BI,PB)(2)SR2CA2CU3OX TAPES
Ba. Glowacki et al., THE EFFECT OF THE TIME-DEPENDENT ANGULAR-DISTRIBUTION OF THE INTERGRAIN MAGNETIC-FIELD ON THE TRANSPORT CRITICAL-CURRENT IN AG-(BI,PB)(2)SR2CA2CU3OX TAPES, Journal of applied physics, 80(4), 1996, pp. 2311-2316
Changes in the energy dissipation of the tape form Ag-(Bi,Pb)(2)Sr2Ca2
Cu3Ox conductor have been interpreted in terms of magnetic flux moveme
nt from, or into, the intergrain regions of the highly textured plate
like grain structure. The time dependent increase or decrease of the t
ransport critical current (I-c), originates from time dependent angula
r superposition of the current induced self field (H-SF), and external
magnetic field [field cooling (H-FC) and zero-field cooling (H-ZFC)]
at the intergrain regions. The existence of time dependent changes of
I-c can be explained in terms of the time dependent flux redistributio
n in grains and grain boundaries caused by thermal relaxation processe
s. (C) 1996 American Institute of Physics.