Truly work-like work extraction

TL;DR

This paper investigates the intrinsic fluctuations in work extraction from non-equilibrium systems and proposes a fluctuation-free measure of extractable work based on a non-equilibrium free energy and one-shot information theory.

Contribution

It introduces a fluctuation-free measure of work extraction from non-equilibrium systems using a non-equilibrium free energy and one-shot relative entropy.

Findings

Fluctuations in work extraction can be as large as the expected work, making energy unpredictable.

A fluctuation-free work measure can be defined using non-equilibrium free energy.

This measure relates to one-shot information-theoretic quantities.

Abstract

The work content of non-equilibrium systems in relation to a heat bath is often analyzed in terms of expectation values of an underlying random work variable. However, we show that when optimizing the expectation value of the extracted work, the resulting extraction process is subject to intrinsic fluctuations, uniquely determined by the Hamiltonian and the initial distribution of the system. These fluctuations can be of the same order as the expected work content per se, in which case the extracted energy is unpredictable, thus intuitively more heat-like than work-like. This raises the question of the `truly' work-like energy that can extracted. Here we consider an alternative that corresponds to an essentially fluctuation-free extraction. We show that this quantity can be expressed in terms of a non-equilibrium generalization of the free energy, or equivalently in terms of a one-shot relative entropy measure introduced in information theory.