Contact resistance of silver-doped Y-Ba-Cu-O in a magnetic field

Abstract

The apparent contact resistance at the Ag‐particle/superconductor interface in sintered YBa₂Cu₃O_7−δ is found to increase considerably in applied magnetic fields (e.g., by ∼300% at H=200 G, at 77 K). However, in a melt‐textured sample where the Ag particles are dispersed within the high J_c grain, no noticeable field dependence of ρ_c is obtained for H up to 1 T. The field dependence of apparent ρ_c in fine‐grained material is, therefore, attributed mostly to the local current concentration in the superconductor near the Ag particles. It causes J_c to be locally exceeded, with the voltage drop contributing to the apparent ρ_c value even though the average current density in the superconductor matrix is well below the J_c value. The importance of avoiding local current concentration by proper design and processing of silver contacts, and minimizing low J_c(H) region near the interface, is pointed out.