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The Prandtl-Tomlinson model of friction with stochastic driving (1709.09604v1)

Published 27 Sep 2017 in cond-mat.stat-mech and cond-mat.mtrl-sci

Abstract: We consider the classical Prandtl-Tomlinson model of a particle moving on a corrugated potential, pulled by a spring. In the usual situation in which pulling acts at constant velocity $\dot\gamma$, the model displays an average friction force $\sigma$ that relates to $\dot\gamma$ (for small $\dot\gamma)$ as $\dot\gamma\sim (\sigma-\sigma_c)\beta$, where $\sigma_c$ is a critical friction force. The possible values of $\beta$ are well known in terms of the analytical properties of the corrugated potential. We study here the situation in which the pulling has, in addition to the constant velocity term, a stochastic term of mechanical origin (i.e, the total driving is a function of $\dot\gamma t$). We analytically show how this term modifies the force-velocity dependence close to the critical force, and give the value of $\beta$ in terms of the analytical properties of the corrugation potential and the scaling properties of the stochastic driving, encoded in the value of its Hurst exponent.

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