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Strong convergence of a fully discrete finite element approximation of the stochastic Cahn-Hilliard equation (1612.09459v3)

Published 30 Dec 2016 in math.NA

Abstract: We consider the stochastic Cahn-Hilliard equation driven by additive Gaussian noise in a convex domain with polygonal boundary in dimension $d\le 3$. We discretize the equation using a standard finite element method in space and a fully implicit backward Euler method in time. By proving optimal error estimates on subsets of the probability space with arbitrarily large probability and uniform-in-time moment bounds we show that the numerical solution converges strongly to the solution as the discretization parameters tend to zero.