Small Ball Probabilities for the Fractional Stochastic Heat Equation Driven by a Colored Noise

Abstract

We consider the fractional stochastic heat equation on the d-dimensional torus Td:=[-12,12]d, d≥ 1, with periodic boundary conditions: \[ ∂t u(t,x)= -(-)α/2u(t,x)+σ(t,x,u)F(t,x) x∈ Td,t∈R+ ,\] where α∈(1,2] and F(t,x) is a generalized Gaussian noise which is white in time and colored in space. Assuming that σ is Lipschitz in u and uniformly bounded, we estimate small ball probabilities for the solution u when u(0,x) 0.

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