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Symmetry-induced fluctuation relations for dynamical observables irrespective of their behaviour under time-reversal

We extend previous work to describe a class of fluctuation relations (FRs) that emerge as a consequence of symmetries at the level of stochastic trajectories in Markov chains. We prove that given such a symmetry, and for a suitable dynamical observable, it is always possible to obtain a FR under a biased dynamics corresponding to the so-called generalized Doob transform. The general transformations of the dynamics that we consider go beyond time-reversal or spatial isometries, and an implication is the existence of FRs for observables irrespective of their behaviour under time-reversal, for example for time-symmetric observables rather than currents. We further show how to deduce in the long-time limit these FRs from the symmetry properties of the generator of the dynamics. We illustrate our results with four examples that highlight the novel features of our work.

preprint2020arXivOpen access
Stefano MarcantoniCarlos Pérez-EspigaresJuan P. Garrahan
cond-mat.stat-mech
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Stefano MarcantoniCarlos Pérez-EspigaresJuan P. Garrahan

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