A simple model for Maxwell's demon type information engine

TL;DR

This paper presents a simple, analytically solvable model of a Maxwell's demon-like information engine that extracts work from a non-equilibrium bath by rectifying fluctuations, clarifying previous errors and exploring various physical scenarios.

Contribution

It introduces a self-consistent theoretical model for fluctuation-induced transport in non-equilibrium systems, correcting earlier inaccuracies and providing analytical expressions for the transport current.

Findings

Derived an analytical expression for fluctuation-induced current.

Identified and corrected errors in previous models.

Explored different physical scenarios of the model.

Abstract

We have investigated the recently proposed self-consistent theory of fluctuation - induced transport. In this framework the subsystem under study is coupled to two independent baths at different temperatures. In this non-equilibrium system one can extract energy at the expense of increased entropy. This is a simple model of Maxwell's demon engine that extracts work out of a non-equilibrium bath by rectifying internal fluctuations. We point out the errors in the earlier results. We have obtained an analytical expression for the fluctuation - induced transport current in a non-equilibrium state and various cases of physical interest have been elucidated.