On the fundamental definition of critical current in superconductors

Abstract

Transport critical current, Ic, is usually defined in terms of a threshold electric field criterion, Ec, with the convention Ec = 1 microVolt/cm, chosen somewhat arbitrarily to provide "reasonably small" electric power dissipation in practical devices. Thus Ic is not fundamentally determined. However, recently it was shown, that the self-field critical current of thin-film superconductors is indeed a fundamental property governed only by the London penetration depth. Here we reconsider the definition of critical current and resolve the apparent contradiction. We measure the field distribution across the width of 2G high-Tc superconducting tapes as the transport current is increased to Ic. We identify a threshold current, IcsurfB, at which two physical events occur simultaneously: (i) an abrupt crossover from non-linear to linear dependence of the local surface magnetic flux density, Bsurf, as a function of transport current measured at any point on the superconductor surface. This effect was not reported previously. (ii) the appearance of a non-zero electric field, just above of the sensitivity of measuring system. In the present examples IcsurfB is 10-15% lower than IcE determined by the Ec criterion. We propose the transition of Bsurf(I) from non-linear to linear as the most reliable and more fundamental technique for measuring transport critical currents.