Real-variable characterizations and their applications of matrix-weighted Triebel–Lizorkin spaces

Abstract

Let α∈R, q∈(0,∞], p∈(0,∞), and W be an Ap(Rn,Cm)-matrix weight. In this article, the authors characterize the matrix-weighted Triebel–Lizorkin space F˙pα,q(W) via the Peetre maximal function, the Lusin area function, and the Littlewood–Paley gλ⁎-function. As applications, the authors establish the boundedness of Fourier multipliers on matrix-weighted Triebel–Lizorkin spaces under the generalized Hörmander condition. The main novelty of these results exists in that their proofs need to fully use both the doubling property of matrix weights and the reducing operator associated to matrix weights, which are essentially different from those proofs of the corresponding cases of classical Triebel–Lizorkin spaces that strongly depend on the Fefferman–Stein vector-valued maximal inequality on Lebesgue spaces.