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arXiv:0708.0109 [math.CA]Abstract References Reviews Resources

Principal values for Riesz transforms and rectifiability

Published 2007-08-01Version 1

Let $E\subset R^d$ with $H^n(E)<\infty$, where H^n stands for the $n$-dimensional Hausdorff measure. In this paper we prove that E is n-rectifiable if and only if the limit $$\lim_{\ve\to0}\int_{y\in E:|x-y|>\ve} \frac{x-y}{|x-y|^{n+1}} dH^n(y)$$ exists H^n-almost everywhere in E. To prove this result we obtain precise estimates from above and from below for the $L^2$ norm of the n-dimensional Riesz transforms on Lipschitz graphs.

Comments: 47 pages

Categories: math.CA, math.FA

Subjects: 42B20, 28A75

Keywords: principal values, rectifiability, dimensional hausdorff measure, n-dimensional riesz transforms, precise estimates

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Principal values for Riesz transforms and rectifiability

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Principal values for Riesz transforms and rectifiability

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arXiv:0708.0109 [math.CA]Abstract References Reviews Resources