Refined basic couplings and Wasserstein-type distances for SDEs with L\'evy noises

Abstract

We establish the exponential convergence with respect to the L1-Wasserstein distance and the total variation for the semigroup corresponding to the stochastic differential equation (SDE) d Xt=d Zt+b(Xt)\,d t, where (Zt)t0 is a pure jump L\'evy process whose L\'evy measure fulfills ∈fx∈ d, |x| 0 [ (δx )]( d)>0 for some constant 0>0, and the drift term b satisfies that for any x,y∈ d, b(x)-b(y),x-y cases 1(|x-y|)|x-y|,& |x-y| l0; -K2|x-y|2,& |x-y|> l0 cases with some positive constants K2, l0 and positive measurable function 1. The method is based on the refined basic coupling for L\'evy jump processes. As a byproduct, we obtain sufficient conditions for the strong ergodicity of the process (Xt)t0.