On an obstacle to the converse of Dahlberg's theorem in high codimensions
Abstract
It has been recently understood that the harmonic measure on the boundary E = ∂ of a domain in Rn is absolutely continuous with respect to the Hausdorff measure Hn - 1 on E if and only if the boundary E is rectifiable. Then, by G. David, M. Engelstein, J. Feneuil, S. Mayboroda and other coauthors, a notion of harmonic measure for Ahlfors-regular sets E of higher codimension n - d was developed with the aid of the operator Lα = -div Dα-n + d + α ∇, where α > 0 and Dα is a certain regularized distance function to the set E. A program was launched to establish analogous to the classical case equivalence between rectifiability of the higher-codimensional set E and good relations of the (new) harmonic and Hausdorff measures. The sufficiency of rectifiability for quantitative absolute continuity was only just obtained. For the other direction the main obstacle is to prove that, roughly, the equation Lα Dα = 0 is true only when the set E is a hyperplane. In this paper we prove some first results which indicate that the latter conjecture may be true. We also explain that a certain natural strategy to tackle the problem does not work till the end.
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