Square function/non-tangential maximal function estimates and the Dirichlet problem for non-symmetric elliptic operators

Hofmann, Steve; Kenig, Carlos; Mayboroda, Svitlana; Pipher, Jill

doi:10.1090/S0894-0347-2014-00805-5

Square function/non-tangential maximal function estimates and the Dirichlet problem for non-symmetric elliptic operators
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by Steve Hofmann, Carlos Kenig, Svitlana Mayboroda and Jill Pipher

J. Amer. Math. Soc. 28 (2015), 483-529

DOI: https://doi.org/10.1090/S0894-0347-2014-00805-5

Published electronically: May 21, 2014

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Abstract:

We consider divergence form elliptic operators $L= {-}\mathrm {div} A(x) \nabla$, defined in the half space $\mathbb {R}^{n+1}_+$, $n\geq 2$, where the coefficient matrix $A(x)$ is bounded, measurable, uniformly elliptic, $t$-independent, and not necessarily symmetric. We establish square function/non-tangential maximal function estimates for solutions of the homogeneous equation $Lu=0$, and we then combine these estimates with the method of “$\epsilon$-approximability” to show that $L$-harmonic measure is absolutely continuous with respect to surface measure (i.e., n-dimensional Lebesgue measure) on the boundary, in a scale-invariant sense: more precisely, that it belongs to the class $A_\infty$ with respect to surface measure (equivalently, that the Dirichlet problem is solvable with data in $L^p$, for some $p<\infty$). Previously, these results had been known only in the case $n=1$.

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