Daniel Hurowitz, Saar Rahav, Doron Cohen
Published 2011-09-25, updated 2012-03-18Version 2
We study the steady state of a multiply-connected system that is driven out of equilibrium by a sparse perturbation. The prototype example is an $N$-site ring coupled to a thermal bath, driven by a stationary source that induces transitions with log-wide distributed rates. An induced current arises, which is controlled by the strength of the driving, and an associated topological term appears in the expression for the energy absorption rate. Due to the sparsity, the crossover from linear response to saturation is mediated by an intermediate regime, where the current is exponentially small in $\sqrt{N}$, which is related to the work of Sinai on "random walk in a random environment".
Comments: 6 pages, 4 figures
Journal: Europhysics Letters 98, 20002 (2012)
Non-equilibrium steady state and induced currents of a mesoscopically-glassy system: interplay of resistor-network theory and Sinai physics
Non-monotonic skewness of currents in non-equilibrium steady states
Dynamic Relaxation of a Levitated Nanoparticle from a Non-Equilibrium Steady State
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