Information-Theoretic Bound on the Entropy Production to Maintain a Classical Nonequilibrium Distribution Using Ancillary Control

Author(s)

Horowitz, Jordan M.; England, Jeremy L.

Abstract

There are many functional contexts where it is desirable to maintain a mesoscopic system in a nonequilibrium state. However, such control requires an inherent energy dissipation. In this article, we unify and extend a number of works on the minimum energetic cost to maintain a mesoscopic system in a prescribed nonequilibrium distribution using ancillary control. For a variety of control mechanisms, we find that the minimum amount of energy dissipation necessary can be cast as an information-theoretic measure of distinguishability between the target nonequilibrium state and the underlying equilibrium distribution. This work offers quantitative insight into the intuitive idea that more energy is needed to maintain a system farther from equilibrium. Keywords: nonequilibrium thermodynamics; dissipation; relative entropy

Date issued

2017-07

URI

http://hdl.handle.net/1721.1/114216

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Entropy

Publisher

MDPI AG

Citation

Jordan M. Horowitz and Jeremey L. England. “Information-Theoretic Bound on the Entropy Production to Maintain a Classical Nonequilibrium Distribution Using Ancillary Control.” Entropy 19, 12 (July 2017): 333 © 2017 The Author(s)

Version: Final published version

ISSN

1099-4300