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October 2019 Capacitary differentiability of potentials of finite Radon measures
Joan Verdera
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Ark. Mat. 57(2): 437-450 (October 2019). DOI: 10.4310/ARKIV.2019.v57.n2.a10

Abstract

We study differentiability properties of a potential of the type $K \star \mu$, where $\mu$ is a finite Radon measure in $\mathrm{R}^N$ and the kernel $K$ satisfies ${\lvert \nabla^j K(x) \rvert \leq C \lvert x \rvert}^{-(N-1+j)} , j={0, 1, 2}$. We introduce a notion of differentiability in the capacity sense, where capacity is classical capacity in the de la Vallée Poussin sense associated with the kernel ${\lvert x \rvert}^{-(N-1)}$. We require that the first order remainder at a point is small when measured by means of a normalized weak capacity “norm” in balls of small radii centered at the point. This implies weak $L^{N/(N-1)}$ differentiability and thus $L^p$ differentiability in the Calderón–Zygmund sense for $1 \leq p \lt N / (N-1)$. We show that $K \star \mu$ is a.e. differentiable in the capacity sense, thus strengthening a recent result by Ambrosio, Ponce and Rodiac. We also present an alternative proof of a quantitative theorem of the authors just mentioned, giving pointwise Lipschitz estimates for $K \star \mu$. As an application, we study level sets of newtonian potentials of finite Radon measures.

Funding Statement

This research was partially supported by the grants 2017SGR395 (Generalitat de Catalunya), MTM2016–75390 (Ministerio de Educación y Ciencia) and María de Maeztu Programme for Units of Excellence in R&D, MDM-2014-0445 (Spanish Ministry of Economy and Competitiveness).

Citation

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Joan Verdera. "Capacitary differentiability of potentials of finite Radon measures." Ark. Mat. 57 (2) 437 - 450, October 2019. https://doi.org/10.4310/ARKIV.2019.v57.n2.a10

Information

Received: 13 December 2018; Revised: 29 December 2018; Published: October 2019
First available in Project Euclid: 16 April 2020

zbMATH: 07114514
MathSciNet: MR4018762
Digital Object Identifier: 10.4310/ARKIV.2019.v57.n2.a10

Subjects:
Primary: 26B05, 31B15, 42B20

Rights: Copyright © 2019 Institut Mittag-Leffler

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Vol.57 • No. 2 • October 2019
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