Quantum depinning of a pancake-vortex from a columnar defect

Abstract

We consider the problem of the depinning of a weakly driven (F Fc) pancake vortex from a columnar defect in a Josephson-coupled superconductor, where F denotes the force acting on the vortex (Fc is the critical force). The dynamics of the vortex is supposed to be of the Hall type. The Euclidean action SEucl(T) is calculated in the entire temperature range; the result is universal and does not depend on the detailed form of the pinning potential. We show that the transition from quantum to classical behavior is second-order like with the temperature Tc of the transition scaling like F4/3. Special attention is paid to the regime of applicability of our results, in particular, the influence of the large vortex mass appearing in the superclean limit is discussed.

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