Stochastic thermodynamics for a periodically driven single-particle pump

Alexandre Rosas; Christian Van den Broeck; Katja Lindenberg

arXiv:1709.10185·cond-mat.stat-mech·December 6, 2017

Stochastic thermodynamics for a periodically driven single-particle pump

Alexandre Rosas, Christian Van den Broeck, Katja Lindenberg

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TL;DR

This paper develops a stochastic thermodynamic framework for a periodically driven single-particle pump, providing explicit formulas for thermodynamic quantities and analyzing deviations from linear response far from equilibrium.

Contribution

It introduces a comprehensive stochastic thermodynamic analysis for a time-periodic single-particle pump, including explicit calculations of flux, work, heat, and efficiency.

Findings

01

Explicit expressions for flux, thermodynamic force, entropy production, work, heat, and efficiency.

02

Analysis of deviations from linear (Onsager) regime.

03

Results valid far from equilibrium.

Abstract

We present the stochastic thermodynamic analysis of a time-periodic single particle pump, including explicit results for flux, thermodynamic force, entropy production, work, heat and efficiency. These results are valid far from equilibrium. The deviations from the linear (Onsager) regime are discussed.

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