@misc{10481/70603,
year = {2019},
month = {10},
url = {http://hdl.handle.net/10481/70603},
abstract = {We introduce a general class of stochastic lattice gas models, and derive their fluctuating hydrodynamics description in the large size limit under a local equilibrium hypothesis. The model consists of energetic particles on a lattice subject to exclusion interactions, which move and collide stochastically with energy-dependent rates. The resulting fluctuating hydrodynamics equations exhibit nonlinear coupled particle and energy transport, including particle currents due to temperature gradients (Soret effect) and energy flow due to concentration gradients (Dufour effect). The microscopic dynamical complexity is condensed in just two matrices of transport coefficients: the diffusivity matrix (or equivalently the Onsager matrix) generalizing Fick Fourier's law, and the mobility matrix controlling current fluctuations. Both transport coefficients are coupled via a fluctuation-dissipation theorem, suggesting that the noise terms affecting the local currents have Gaussian properties. We further prove the positivity of entropy production in terms of the microscopic dynamics. The so-called kinetic exclusion process has as limiting cases two of the most paradigmatic models of nonequilibrium physics, namely the symmetric simple exclusion process of particle diffusion and the Kipnis Marchioro Presutti model of heat flow, making it the ideal testbed where to further develop modern theories of nonequilibrium behavior.},
organization = {We thank R Hurtado for many useful comments on the manuscript. Financial support from Spanish Ministry MINECO project FIS2017-84256-P is also acknowledged. This study has been partially financed by the Consejeria de Conocimiento, Investigacion y Universidad (Junta de Andalucia), and European Regional Development Fund (ERDF), ref. SOMM17/6105/UGR.},
title = {The kinetic exclusion process: a tale of two fields},
doi = {10.1088/1742-5468/ab4587},
author = {Hurtado Fernández, Pablo Ignacio and Gutiérrez Ariza, Carlos},
}