Higher Order Calderon-Zygmund Estimates for the p-Laplace Equation

Abstract

The paper is concerned with higher order Calderon-Zygmund estimates for the p-Laplace equation -div(A(∇ u)) := -div(|∇ u|p-2∇ u)=-div F, 1<p<∞. We are able to transfer local interior Besov and Triebel-Lizorkin regularity up to first order derivatives from the force term F to the flux A(∇ u). For p≥ 2 we show that F ∈ Bs,q implies A(∇ u) ∈ Bs,q for any s ∈ (0,1) and all reasonable ,q ∈ (0,∞] in the planar case. The result fails for p<2. In case of higher dimensions and systems we have a smallness restriction on s. The quasi-Banach case 0<\,q\ < 1 is included, since it has important applications in the adaptive finite element analysis. As an intermediate step we prove new linear decay estimates for p-harmonic functions in the plane for the full range 1<p<∞.