Engineered swift equilibration on generic configuration spaces

Adam Frim; Adrianne Zhong; Shi-Fan Chen; Dibyendu Mandal; Michael Robert DeWeese

Engineered swift equilibration on generic configuration spaces

ORAL

Abstract

Engineered swift equilibration (ESE) is a class of driving protocols that enforce an internal equilibrium distribution at all times during rapid state transformation of open, classical non-equilibrium systems. ESE protocols have previously been derived and experimentally realized for Brownian particles in simple, one-dimensional, time-varying trapping potentials. We extend the ESE framework to overdamped Brownian particles described by generic configuration spaces. We illustrate our results numerically for specific example systems not amenable to previous techniques. Our approach may be used to impose internal equilibrium dynamics in a wide variety of experimental settings.

March 16, 2021, 6:36 PM – March 16, 2021, 6:48 PM

Presenters

Adam Frim

University of California, Berkeley

Authors

Adam Frim

University of California, Berkeley
Adrianne Zhong

University of California, Berkeley
Shi-Fan Chen

University of California, Berkeley
Dibyendu Mandal

Department of Physics, University of California, Berkeley, University of California, Berkeley
Michael Robert DeWeese

University of California, Berkeley