Continuous Breuer-Major theorem for vector valued fields

Abstract

Let : × Rn R be zero mean, mean-square continuous, stationary, Gaussian random field with covariance function r(x) = E[(0)(x)] and let G : R R such that G is square integrable with respect to the standard Gaussian measure and is of Hermite rank d. The Breuer-Major theorem in it's continuous setting gives that, if r ∈ Ld(Rn), then the finite dimensional distributions of Zs(t) = 1(2s)n/2 ∫[-st1/n,st1/n]n [G((x)) - E[G((x))]]dx converge to that of a scaled Brownian motion as s ∞. Here we give a proof for the case when : × Rn Rm is a random vector field. We also give a proof for the functional convergence in C([0,∞)) of Zs to hold under the condition that for some p>2, G∈ Lp(Rm, γm) where γm denotes the standard Gaussian measure on Rm and we derive expressions for the asymptotic variance of the second chaos component in the Wiener chaos expansion of Zs(1).