Convergence of a finite-volume scheme for a heat equation with a multiplicative Lipschitz noise

Abstract

We study here the approximation by a finite-volume scheme of a heat equation forced by a Lipschitz continuous multiplicative noise in the sense of It\o. More precisely, we consider a discretization which is semi-implicit in time and a two-point flux approximation scheme (TPFA) in space. We adapt the method based on the theorem of Prokhorov to obtain a convergence in distribution result, then Skorokhod's representation theorem yields the convergence of the scheme towards a martingale solution and the Gy\"ongy-Krylov argument is used to prove convergence in probability of the scheme towards the unique variational solution of our parabolic problem.