Juan Carlos Andresen, Yohanes Pramudya, Helmut G. Katzgraber, Creighton K. Thomas, Gergely T. Zimanyi, V. Dobrosavljevic
Published 2013-09-11, updated 2016-02-04Version 2
We explore the stability of far-from-equilibrium metastable states of a three-dimensional Coulomb glass at zero temperature by studying charge avalanches triggered by a slowly varying external electric field. Surprisingly, we identify a sharply defined dynamical ("depinning") phase transition from stationary to nonstationary charge displacement at a critical value of the external electric field. Using particle-conserving dynamics, scale-free system-spanning avalanches are observed only at the critical field. We show that the qualitative features of this depinning transition are completely different for an equivalent short-range model, highlighting the key importance of long-range interactions for nonequilibrium dynamics of Coulomb glasses.
Comments: 9 pages, 10 figures, 1 table, no rants
Reply to Comment "Density of states and critical behavior of the three-dimensional Coulomb Glass"
Critical behavior of the three-dimensional Coulomb glass at finite temperatures and low disorders
Critical behaviour and ultrametricity of Ising spin-glass with long-range interactions
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