Existence and regularity of steady-state solutions of the Navier-Stokes equations arising from irregular data

Abstract

We analyze the forced incompressible stationary Navier-Stokes flow in Rn+, n>2. Existence of a unique solution satisfying a global integrabilty property measured in a scale of tent spaces is established for small data in homogenous Sobolev space with s=-12 degree of smoothness. Moreover, the velocity field is shown to be locally H\"older continuous while the pressure belongs to Lploc for any p∈ (1,∞). Our approach is based on the analysis of the inhomogeneous Stokes system for which we derive a new solvability result involving Dirichlet data in Triebel-Lizorkin classes with negative amount of smoothness and is of independent interest.