Optimal Strong Rates of Convergence for a Space-Time Discretization of the Stochastic Allen-Cahn Equation with multiplicative noise

Abstract

The stochastic Allen-Cahn equation with multiplicative noise involves the nonlinear drift operator A(x) = x - ( x2 -1)x. We use the fact that A(x) = - J(x) satisfies a weak monotonicity property to deduce uniform bounds in strong norms for solutions of the temporal, as well as of the spatio-temporal discretization of the problem. This weak monotonicity property then allows for the estimate 1 ≤ j ≤ J E[ Xtj - Yj L22] ≤ Cδ(k1-δ + h2) for all small δ>0, where X is the strong variational solution of the stochastic Allen-Cahn equation, while \Yj:0 j J\ solves a structure preserving finite element based space-time discretization of the problem on a temporal mesh \ tj;\, 1 ≤ j ≤ J\ of size k>0 which covers [0,T].