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arxiv: 1805.07052 · v1 · pith:7AX34LFPnew · submitted 2018-05-18 · ❄️ cond-mat.dis-nn · cond-mat.stat-mech

Transition to exponential relaxation in weakly-disordered electron-glasses

classification ❄️ cond-mat.dis-nn cond-mat.stat-mech
keywords transitionallowsdependenceelectron-glasselectron-glassesexponentialrelaxationrelaxation-time
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The out-of-equilibrium excess conductance of electron-glasses typically relaxes with a logarithmic time-dependence. Here it is shown that the log(t) relaxation of a weakly-disordered amorphous indium-oxide films crosses-over asymptotically to an exponential dependence. This allows assigning a well-defined relaxation-time t' for a given system-disorder (characterized by the Ioffe-Regel parameter). Near the metal-insulator transition, t' obeys the scaling relation with the same critical disorder where the zero-temperature conductivity of this system vanishes. The latter defines the position of the disorder-driven metal-to-insulator transition (MIT) which is a quantum-phase-transition. In this regard the electron-glass differs from classical-glasses such as the structural-glass and spin-glass. The ability to experimentally assign an unambiguous relaxation-time allows us to demonstrate the steep dependence of the electron-glass dynamics on carrier-concentration.

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