Convolution Operators in Matrix Weighted, Variable Lebesgue Spaces

Abstract

We extend the theory of matrix weights to the variable Lebesgue spaces. The theory of matrix Ap weights has attracted considerable attention beginning with the work of Nazarov, Treil, and Volberg in the 1990s. We extend this theory by generalizing the matrix Ap condition to the variable exponent setting. We prove boundedness of the convolution operator f φ F for φ ∈ Cc∞(), and show that the approximate identity defined using φ converges in matrix weighted, variable Lebesgue spaces Lp(·)(W,) for W in matrix Ap(·). Our approach to this problem is through averaging operators; these results are of interest in their own right. As an application of our work, we prove a version of the classical H=W theorem for matrix weighted, variable exponent Sobolev spaces.