Nonequilibrium relaxation and aging scaling of the Coulomb and Bose glass

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2014-09-11

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American Physical Society

Abstract

We employ Monte Carlo simulations to investigate the non-equilibrium relaxation properties of the two- and three-dimensional Coulomb glass with different long-range repulsive interactions. Specifically, we explore the aging scaling laws in the two-time density autocorrelation function. We find that in the time window and parameter range accessible to us, the scaling exponents are not universal, depending on the filling fraction and temperature: As either the temperature decreases or the filling fraction deviates more from half-filling, the exponents reflect markedly slower relaxation kinetics. In comparison with a repulsive Coulomb potential, appropriate for impurity states in strongly disordered semiconductors, we observe that for logarithmic interactions, the soft pseudo-gap in the density of states is considerably broader, and the dependence of the scaling exponents on external parameters is much weaker. The latter situation is relevant for flux creep in the disorder-dominated Bose glass phase of type-II superconductors subject to columnar pinning centers.

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Physics, Fluids & Plasmas, Physics, Mathematical, Physics, HIGH-TEMPERATURE SUPERCONDUCTORS, OFF-EQUILIBRIUM DYNAMICS, ELECTRON GLASS, DISORDERED-SYSTEMS, GAP, PHASE, LOCALIZATION, INSULATOR, VORTICES, BEHAVIOR

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