On the surface average for harmonic functions: a stability inequality
DOI:
https://doi.org/10.6092/issn.2240-2829/18860Keywords:
Surface Gauss mean value formula, stability, harmonic functions, rigidityAbstract
In this article we present some of the main aspects and the most recent results related to the following question: If the surface mean integral of every harmonic function on the boundary of an open set D is "almost'' equal to the value of these functions at x0 in D, then is D "almost'' a ball with center x0? This is the stability counterpart of the rigidity question (the statement above, without the two "almost'') for which several positive answers are known in literature. A positive answer to the stability problem has been given in a paper by Preiss and Toro, by assuming a condition that turns out to be sufficient for ∂D to be geometrically close to a sphere. This condition, however, is not necessary, even for small Lipschitz perturbations of smooth domains, as shown in our recent paper, in which a stability inequality is obtained by assuming only a local regularity property of the boundary of D in at least one of its points closest to x0.Downloads
Published
2024-01-09
How to Cite
Cupini, G., & Lanconelli, E. (2023). On the surface average for harmonic functions: a stability inequality. Bruno Pini Mathematical Analysis Seminar, 14(2), 129–138. https://doi.org/10.6092/issn.2240-2829/18860
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Copyright (c) 2024 Giovanni Cupini, Ermanno Lanconelli
This work is licensed under a Creative Commons Attribution 3.0 Unported License.
