English

Nonlinear transport coefficients from large deviation functions

Statistical Mechanics 2019-07-24 v2 Chemical Physics

Abstract

Nonlinear response occurs naturally when a strong perturbation takes a system far from equilibrium. Despite of its omnipresence in nanoscale systems, it is difficult to predict in a general and efficient way. Here we introduce a way to compute arbitrarily high order transport coefficients of stochastic systems, using the framework of large deviation theory. Leveraging time reversibility in the microscopic dynamics, we relate nonlinear response to equilibrium multi-time correlation functions among both time reversal symmetric and asymmetric observables, which can be evaluated from derivatives of large deviation functions. This connection establishes a thermodynamic-like relation for nonequilibrium response and provides a practical route to its evaluation, as large deviation functions are amenable to importance sampling. We demonstrate the generality and efficiency of this method in predicting transport coefficients in single particle systems and an interacting system exhibiting thermal rectification.

Keywords

Cite

@article{arxiv.1812.01470,
  title  = {Nonlinear transport coefficients from large deviation functions},
  author = {Chloe Ya Gao and David T. Limmer},
  journal= {arXiv preprint arXiv:1812.01470},
  year   = {2019}
}

Comments

10 pages, 4 figures

R2 v1 2026-06-23T06:31:12.942Z