(H,H3)-smoothing effect and convergence of solutions of stochastic two-dimensional anisotropic Navier-Stokes equations driven by colored noise

Abstract

This paper is devoted to the higher regularity and convergence of solutions of anisotropic Navier-Stokes (NS) equations with additive colored noise and white noise on two-dimensional torus T2. Under the conditions that the external force f(x) belongs to the phase space H and the noise intensity function h(x) satisfies \|∇ h\|L∞ ≤ πδ λ12, it was proved that the random anisotropic NS equations possess a tempered (H,H2)-random attractor whose (box-counting) fractal dimension in H2 is finite. This was achieved by establishing, first, an H2 bounded absorbing set and, second, an (H,H2)-smoothing effect of the system which lifts the compactness and finite-dimensionality of the attractor in H to that in H2. Since the force f belongs only to H, the H2-regularity of solutions as well as the H2-bounded absorbing set was constructed by an indirect approach of estimating the H2-distance between the solution of the random anisotropic NS equations and that of the corresponding deterministic anisotropic NS equations. When the external force f(x) belongs to H2 and the noise intensity function h(x) satisfies the Assumption 2, it was proved that the random anisotropic NS equations possess a tempered (H,H3)-random attractor whose (box-counting) fractal dimension in H3 is finite. Finally, we prove the upper semi-continuity of random attractors and the convergence of solutions of (8.3) as δ→0 in the spaces (H,H), (H,H1), (H1,H2) and (H2,H3), respectively.