Grisvard's shift theorem near Linfinity and Yudovich theory on polygonal domains

Abstract

Let Omega be a bounded, simply connected domain with boundary of class C1,1 except at finitely many points Sj where the boundary is locally a corner of aperture alphaj<=pi/2. Improving on results of Grisvard, we show that the solution Gf to the Dirichlet problem on Omega with data f in Linfinity(Omega) and homogeneous boundary conditions has exponentially integrable second derivatives. The proof uses sharp Lp bounds for singular integrals on power weighted spaces inspired by the work of Buckley. Our results allow for the extension of the Yudovich theory of existence, uniqueness and regularity of weak solutions to the Euler equations on Omega x (0,T) to polygonal domains Omega as above.