Stationary non-equilibrium properties for a heat conduction model

Abstract

We consider a stochastic heat conduction model for solids composed by N interacting atoms. The system is in contact with two heat baths at different temperature T and Tr. The bulk dynamics conserve two quantities: the energy and the deformation between atoms. If T ≠ Tr, a heat flux takes place in the system. For large N, the system adopts a linear temperature profile between T and Tr. We establish the hydrodynamic limit for the two conserved quantities. We introduce the fluctuations field of the energy and of the deformation in the non-equilibrium steady state. As N goes to infinity, we show that this field converges to a Gaussian field and we compute the limiting covariance matrix. The main contribution of the paper is the study of large deviations for the temperature profile in the non-equilibrium stationary state. A variational formula for the rate function is derived following the recent macroscopic fluctuation theory of Bertini et al.