Semi-Uniform Domains and the A∞ Property for Harmonic Measure

Abstract

Abstract We study the properties of harmonic measure in semi-uniform domains. Aikawa and Hirata showed in [ 5] that, for John domains satisfying the capacity density condition (CDC), the doubling property for harmonic measure is equivalent to the domain being semi-uniform. Our 1st result removes the John condition by showing that any domain satisfying the CDC whose harmonic measure is doubling is semi-uniform. Next, we develop a substitute for some classical estimates on harmonic measure in nontangentially accessible domains that works in semi-uniform domains. We also show that semi-uniform domains with uniformly rectifiable boundary have big pieces of chord-arc subdomains. We cannot hope for big pieces of Lipschitz subdomains (as was shown for chord-arc domains by David and Jerison [ 19]) due to an example of Hrycak, which we review in the appendix. Finally, we combine these tools to study the $A_{\infty }$-property of harmonic measure. For a domain with Ahlfors–David regular boundary, it was shown by Hofmann and Martell that the $A_{\infty }$ property of harmonic measure implies uniform rectifiability of the boundary [ 25, 27]. Since $A_{\infty }$-weights are doubling, this also implies the domain is semi-uniform. Our final result shows that these two properties, semi-uniformity and uniformly rectifiable boundary, also imply the $A_{\infty }$ property for harmonic measure, thus classifying geometrically all domains for which this holds.