Force-Force Correlator for Driven Disordered Systems at Finite Temperature

Abstract

When driving a disordered elastic manifold through quenched disorder, the pinning forces exerted on the center of mass are fluctuating, with mean fc=-Fw and variance (w)=Fw F0c, where w is the externally imposed control parameter for the preferred position of the center of mass. (w) was obtained via the functional renormalization group in the limit of vanishing temperature T 0, and vanishing driving velocity v 0. There are two fixed points, and deformations thereof, which are well understood: The depinning fixed point (T 0 before v 0) rounded at v>0, and the zero-temperature equilibrium fixed point (v 0 before T 0) rounded at T>0. Here we consider the whole parameter space of driving velocity v>0 and temperature T>0, and quantify numerically the crossover between these two fixed points.