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Thermal rounding exponent of the depinning transition of an elastic string in a random medium

arXiv:1204.0772 · doi:10.1103/PhysRevE.85.021144

Abstract

We study numerically thermal effects at the depinning transition of an elastic string driven in a two-dimensional uncorrelated disorder potential. The velocity of the string exactly at the sample critical force is shown to behave as $V \sim T^ψ$, with $ψ$ the thermal rounding exponent. We show that the computed value of the thermal rounding exponent, $ψ= 0.15$, is robust and accounts for the different scaling properties of several observables both in the steady-state and in the transient relaxation to the steady-state. In particular, we show the compatibility of the thermal rounding exponent with the scaling properties of the steady-state structure factor, the universal short-time dynamics of the transient velocity at the sample critical force, and the velocity scaling function describing the joint dependence of the steady-state velocity on the external drive and temperature.