Quasi-Ergodicity of Transient Patterns in Stochastic Reaction-Diffusion Equations

Abstract

We study transient patterns appearing in a class of SPDE using the framework of quasi-stationary and quasi-ergodic measures. In particular, we prove the existence and uniqueness of quasi-stationary and quasi-ergodic measures for a class of reaction-diffusion systems perturbed by additive cylindrical noise. We obtain convergence results in L2 and almost surely, and demonstrate an exponential rate of convergence to the quasi-stationary measure in an L2 norm. These results allow us to qualitatively characterize the behaviour of these systems in neighbourhoods of an invariant manifold of the corresponding deterministic systems at some large time t>0, conditioned on remaining in the neighbourhood up to time t. The approach we take here is based on spectral gap conditions, and is not restricted to the small noise regime.