Communications in Mathematical Sciences

Volume 12 (2014)

Number 2

Homogenization of stochastic semilinear parabolic equations with non-Lipschitz forcings in domains with fine grained boundaries

Pages: 345 – 382



Mamadou Sango (Department of Mathematics and Applied Mathematics, University of Pretoria, South Africa)


The present work deals with the homogenization and in-depth asymptotic analysis of a nonlinear stochastic evolution equation with non-Lipschitz nonlinearities in a domain with fine grained boundaries in which the obstacles have a non-periodic distribution. Under appropriate conditions on the data it is proved that a solution of the initial problem converges in suitable topologies to a solution of a limit problem which contains an additional term of capacity type. The notion of solution is that of weak probabilistic which is a system consisting of a probability space, Wiener process, and a solution in the distribution sense of the problem.


stochastic partial differential equation, homogenization, perforated domains

2010 Mathematics Subject Classification

35B27, 60H15

Published 20 September 2013