Double weighted commutators theorem for pseudo-differential operators with smooth symbols

Deng, Yu-long; Chen, Zhi-tian; Long, Shun-chao

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Deng, Yu-long ; Chen, Zhi-tian ; Long, Shun-chao

Double weighted commutators theorem for pseudo-differential operators with smooth symbols. (English). Czechoslovak Mathematical Journal, vol. 71 (2021), issue 1, pp. 173-190

MSC: 35S05, 42B25, 47G30 | MR 4226476 | Zbl 07332711 | DOI: 10.21136/CMJ.2020.0246-19

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Keywords:
pseudo-differential operator; reverse Hölder inequality; $A_p$ weight; commutator

Summary:
Let $-(n+1)<m\leq -(n+1)(1-\rho )$ and let $T_{a}\in \mathcal {L}^{m}_{\rho ,\delta }$ be pseudo-differential operators with symbols $a(x,\xi )\in \mathbb {R}^n\times \mathbb {R}^n$, where $0<\rho \leq 1$, $0\leq \delta <1$ and $\delta \leq \rho $. Let $\mu $, $\lambda $ be weights in Muckenhoupt classes $A_{p}$, $\nu =(\mu \lambda ^{-1})^{1/p}$ for some $1<p<\infty $. We establish a two-weight inequality for commutators generated by pseudo-differential operators $T_{a}$ with weighted BMO functions $b\in {\rm BMO}_{\nu }$, namely, the commutator $[b,T_{a}]$ is bounded from $L^{p}(\mu )$ into $L^{p}(\lambda )$. Furthermore, the range of $m$ can be extended to the whole $m\leq -(n+1)(1-\rho )$.

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