Eddy-current loss in a fully-stabilized multifilamentary superconducting wire

Coupling-current losses in a multifilamentary superconducting wire with a normal metal core were calculated for the case of transverse magnetic fields. The results showed that the dependence of the coupling~turrent loss of such a wire on the rate of field variation is markedly different from that of

Investigations of transient field losses in multifilamentary composite conductors carrying dc transport currents, I, are presented. As shown previously, the total loss is best characterized by a normalized transport current i = I/Ic and a dimensionless field-change rate = rBe/Bp, where r is the rela

For the current distribution inside a multifilamentary superconducting wire carring a dc transport current in a rapidly changing transverse magnetic field, inconsistencies with the existing models are shown by the following experimental evidence: when a transverse magnetic field is applied, the dist

A detailed discu=ion is presented on the change iR current distribution which takes place in a twisted multifilamentary superconducting wire induced by succe~ive magnetic field pulses with a slow sweep-rate. The number of the field pulses requried for a localized current~fistribution to become unifo