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# Sharp weighted bounds involving A_\infty

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### Abstract

We improve on several weighted inequalities of recent interest by replacing a part of the A_p bounds by weaker A_\infty estimates involving Wilson's A_\infty constant $[w]_{A_\infty}':=\sup_Q\frac{1}{w(Q)}\int_Q M(w\chi_Q).$ In particular, we show the following improvement of the first author's A_2 theorem for Calder\'on-Zygmund operators T: $\|T\|_{B(L^2(w))}\leq c_T [w]_{A_2}^{1/2}([w]_{A_\infty}'+[w^{-1}]_{A_\infty}')^{1/2}.$ Corresponding A_p type results are obtained from a new extrapolation theorem with appropriate mixed A_p-A_\infty bounds. This uses new two-weight estimates for the maximal function, which improve on Buckley's classical bound. We also derive mixed A_1-A_\infty type results of Lerner, Ombrosi and the second author (Math. Res. Lett. 2009) of the form: $\|T\|_{B(L^p(w))} \leq c pp'[w]_{A_1}^{1/p}([w]_{A_{\infty}}')^{1/p'}, 1<p<\infty,$ $\|Tf\|_{L^{1,\infty}(w)} \leq c[w]_{A_1} \log(e+[w]'_{A_{\infty}}) \|f\|_{L^1(w)}.$ An estimate dual to the last one is also found, as well as new bounds for commutators of singular integrals.

### Author and article information

###### Journal
29 March 2011
###### Article
1103.5562
ffff5cc3-796a-4fe9-8328-5495cbf1eff2