Improved Liouville theorems for axially symmetric Navier-Stokes equations

Abstract

In this paper, we consider the Liouville property for ancient solutions of the incompressible Navier-Stokes equations. In 2D and the 3D axially symmetric case without swirl, we prove sharp Liouville theorems for smooth ancient mild solutions: velocity fields v are constants if vorticity fields satisfy certain condition and v are sublinear with respect to spatial variables, and we also give counterexamples when v are linear with respect to spatial variables. The condition which vorticity fields need to satisfy is |x|→ +∞|w(x,t)|=0 and r→ +∞|w|x12+x22=0 uniformly for all t∈(-∞,0) in 2D and 3D axially symmetric case without swirl, respectively. In the case when solutions are axially symmetric with nontrivial swirl, we prove that if =rvθ∈ L∞tLpx(R3×(-∞,0)) where 1≤ p<∞, then bounded ancient mild solutions are constants.