Chloe Ya Gao, David T. Limmer
Published 2017-09-26Version 1
We describe a method for computing transport coefficients from the direct evaluation of large deviation function. This method is general, relying on only equilibrium fluctuations, and is statistically efficient, employing trajectory based importance sampling. Equilibrium fluctuations of molecular currents are characterized by their large deviation functions, which is a scaled cumulant generating function analogous to the free energy. A diffusion Monte Carlo algorithm is used to evaluate the large deviation functions, from which arbitrary transport coefficients are derivable. We find significant statistical improvement over traditional Green-Kubo based calculations. The systematic and statistical errors of this method are analyzed in the context of specific transport coefficient calculations, including the shear viscosity, interfacial friction coefficient, and thermal conductivity.
Comments: 11 pages, 5 figures
Equilibrium fluctuations in a metastable state of a Ginzburg-Landau system
Large deviation function and fluctuation theorem for classical particle transport
Effective Langevin equations leading to large deviation function of time-averaged velocity for a nonequilibrium Rayleigh piston
![QR code for arXiv:1709.09187 [cond-mat.stat-mech]](http://oss.arxitics.com/images/favicon.svg)