Thickness dependence of critical currents in thin superconductors

Abstract

Mechanisms of vortex dynamics and pinning and self-field effects which could account for the thickness dependence of the critical current density Jc of superconducting films are addressed. It is shown that at low magnetic fields B, the 2D single-vortex pinning and thermal fluctuations yield Jc proportional to (1/sqrtd)exp[-(dm/d)1/2], if the film thickness d is smaller than the pinning correlation length along B. The model describes the dependence of Jc on d observed on YBa2Cu3O7 coated conductors for d < 2(mu)m. Measurements of Jc(d) in strong magnetic fields are proposed to probe whether the dependence of Jc on d is mostly determined by the 2D pinning or changes in the material microstructure as the film gets thicker.

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