arxiv:1309.2226

Non-invasive estimation of dissipation from non-equilibrium fluctuations in chemical reactions

Published on Sep 9, 2013

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Abstract

A method for estimating entropy production from stationary fluctuations in chemical reactions is presented, utilizing fluctuation theorems without requiring knowledge of underlying dynamics or complete information.

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We show how to extract from a sufficiently long time series of stationary fluctuations of chemical reactions an estimate of the entropy production. This method, which is based on recent work on fluctuation theorems, is direct, non-invasive, does not require any knowledge about the underlying dynamics, and is applicable even when only partial information is available. We apply it to simple stochastic models of chemical reactions involving a finite number of states, and for this case, we study how the estimate of dissipation is affected by the degree of coarse-graining present in the input data.

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