Averaging Dynamics and Wong-Zakai approximations for a Fast-Slow Navier-Stokes System Driven by fractional Brownian Motion

Abstract

We study a slow-fast system of coupled two- and three-dimensional Navier-Stokes equations in which the fast component is perturbed by an additive fractional Brownian noise with Hurst parameter H>13. The system is analyzed using rough path theory, and the limiting behaviour strongly depends on the value of H. We prove convergence in law of the slow component to a Navier-Stokes system with an additional It\o-Stokes drift when H<12. In contrast, for H∈ (12,1), the limit equation features only a transport noise driven by a rough path.