Pair-breaking effect on mesoscopic persistent currents

Abstract

We consider the contribution of superconducting fluctuations to the mesoscopic persistent current (PC) of an ensemble of normal metallic rings, made of a superconducting material whose low bare transition temperature T0c is much smaller than the Thouless energy Ec. The effect of pair breaking is introduced via the example of magnetic impurities. We find that over a rather broad range of pair-breaking strength /τs, such that Tc0 /τs Ec, the superconducting transition temperature is normalized down to minute values or zero while the PC is hardly affected. This may provide an explanation for the magnitude of the average PC's in copper and gold, as well as a way to determine their T0c's. The dependence of the current and the dominant superconducting fluctuations on Ecτs and on the ratio between Ec and the temperature is analyzed. The measured PC's in copper (gold) correspond to T0c of a few (a fraction of) mK.