Mimicking Nonequilibrium Steady States with Time-Periodic Driving

TYPECondensed Matter Seminar
Speaker:Oren Raz
Affiliation:University of Maryland
Date:08.11.2016
Time:14:30
Location:Lidow Nathan Rosen (300)
Abstract:

Under static conditions, a system satisfying detailed balance generically relaxes to an equilibrium state in which there are no currents. To generate persistent currents, either detailed balance must be broken or the system must be driven in a time-dependent manner.  In both cases, the currents are maintained at the cost of entropy production. Are these two paradigmatic scenarios effectively equivalent? In this talk, I will present a mapping between nonequilibrium stationary states and periodic-driving.  Nonequilibrium steady states and periodic-driving are often used to model, respectively, biomolecular motors driven by chemical reactions and artificial molecular machines steered by the variation of external, macroscopic parameters. Our results suggest that anything a biomolecular machine can do, an artificial molecular machine can do equally well. This principles are illustrated by showing that kinetic proofreading, a nonequilibrium steady state mechanism that explains the low error rates in biochemical reactions, can be effectively mimicked by a constrained periodic driving.