The measures with L2-bounded Riesz transform and the Painlev\'e problem for Lipschitz harmonic functions

Abstract

This work provides a geometric characterization of the measures μ in Rn+1 with polynomial upper growth of degree n such that the n-dimensional Riesz transform Rμ (x) = ∫ x-y|x-y|n+1\,dμ(y) belongs to L2(μ). More precisely, it is shown that \|Rμ\|L2(μ)2 + \|μ\|≈ ∫\!\!∫0∞ β2,μ(x,r)2\,μ(B(x,r))rn\,drr\,dμ(x) + \|μ\|, where βμ,2(x,r)2 = ∈fL 1rn∫B(x,r) (dist(y,L)r)2\,dμ(y), with the infimum taken over all affine n-planes L⊂ Rn+1. As a corollary, one obtains a characterization of the removable sets for Lipschitz harmonic functions in terms of a metric-geometric potential and one deduces that the class of removable sets for Lipschitz harmonic functions is invariant by bilipschitz mappings.

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