Static and Dynamic Properties of Inhomogeneous Elastic Media on Disordered Substrate

Abstract

The pinning of an inhomogeneous elastic medium by a disordered substrate is studied analytically and numerically. The static and dynamic properties of a D-dimensional system are shown to be equivalent to those of the well known problem of a D-dimensional random manifold embedded in (D+D)-dimensions. The analogy is found to be very robust, applicable to a wide range of elastic media, including those which are amorphous or nearly-periodic, with local or nonlocal elasticity. Also demonstrated explicitly is the equivalence between the dynamic depinning transition obtained at a constant driving force, and the self-organized, near-critical behavior obtained by a (small) constant velocity drive.

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