A decomposition technique for integrable functions with applications to the divergence problem

Abstract

Let ⊂ Rn be a bounded domain that can be written as =t t, where \t\t∈ is a countable collection of domains with certain properties. In this work, we develop a technique to decompose a function f∈ L1(), with vanishing mean value, into the sum of a collection of functions \ft-ft\t∈ subordinated to \t\t∈ such that Supp\,(ft-ft)⊂t and ∫ ft-ft=0. As an application, we use this decomposition to prove the existence of a solution in weighted Sobolev spaces of the divergence problem =f and the well-posedness of the Stokes equations on H\"older-α domains and some other domains with an external cusp arbitrarily narrow. We also consider arbitrary bounded domains. The weights used in each case depend on the type of domain.