Gevrey Stability of Prandtl Expansions for 2D Navier-Stokes

Abstract

We investigate the stability of boundary layer solutions of the two-dimensional incompressible Navier-Stokes equations. We consider shear flow solutions of Prandtl type : u(t,x,y) \, = \, (UE(t,y) + UBL(t,y)\,, \, 0 )\, , 0< 1\,. We show that if UBL is monotonic and concave in Y = y / then u is stable over some time interval (0,T), T independent of , under perturbations with Gevrey regularity in x and Sobolev regularity in y. We improve in this way the classical stability results of Sammartino and Caflisch in analytic class (both in x and y). Moreover, in the case where UBL is steady and strictly concave, our Gevrey exponent for stability is optimal. The proof relies on new and sharp resolvent estimates for the linearized Orr-Sommerfeld operator.