Stochastic Hamiltonian flows with singular coefficients

Abstract

In this paper we study the following stochastic Hamiltonian system in R2d (a second order stochastic differential equation), d Xt=b(Xt, Xt)d t+σ(Xt, Xt)d Wt,\ \ (X0, X0)=(x,v)∈ R2d, where b(x,v): R2d Rd and σ(x,v): R2d Rd Rd are two Borel measurable functions. We show that if σ is bounded and uniformly non-degenerate, and b∈ H2/3,0p and ∇σ∈ Lp for some p>2(2d+1), where Hα,βp is the Bessel potential space with differentiability indices α in x and β in v, then the above stochastic equation admits a unique strong solution so that (x,v) Zt(x,v):=(Xt, Xt)(x,v) forms a stochastic homeomorphism flow, and (x,v) Zt(x,v) is weakly differentiable with ess.x,vE(t∈[0,T]|∇ Zt(x,v)|q)<∞ for all q≥ 1 and T≥ 0. Moreover, we also show the uniqueness of probability measure-valued solutions for kinetic Fokker-Planck equations with rough coefficients by showing the well-posedness of the associated martingale problem and using the superposition principle established by Figalli Fi and Trevisan Tre.