Bloom type inequality for bi-parameter singular integrals: efficient proof and iterated commutators

Abstract

Utilising some recent ideas from our bilinear bi-parameter theory, we give an efficient proof of a two-weight Bloom type inequality for iterated commutators of linear bi-parameter singular integrals. We prove that if T is a bi-parameter singular integral satisfying the assumptions of the bi-parameter representation theorem, then \| [bk,·s[b2, [b1, T]]·s]\|Lp(μ) Lp(λ) [μ]Ap, [λ]Ap Πi=1k\|bi\|bmo(θi) , where p ∈ (1,∞), θi ∈ [0,1], Σi=1kθi=1, μ, λ ∈ Ap, := μ1/pλ-1/p. Here Ap stands for the bi-parameter weights in Rn × Rm and bmo() is a suitable weighted little BMO space. We also simplify the proof of the known first order case.