Weak solutions of Anisotropic (and crystalline) inverse mean curvature flow as limits of \(p\)-capacitary potentials

We construct weak solutions of the anisotropic inverse mean curvature flow (A-IMCF) under very mild assumptions both on the anisotropy (which is simply a norm in \(\mathbb R^N\) with no ellip\-ticity nor smoothness requirements, in order to include the crystalline case) and on the initial data. By m...

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Bibliographic Details
Published in:arXiv.org 2024-04
Main Authors: Cabezas-Rivas, Esther, Moll, Salvador, Solera, Marcos
Format: Article
Language:English
Subjects:
Anisotropy
Approximation
Curvature
Harmonic functions
Mathematical analysis
Smoothness
Uniqueness
Online Access:Get full text
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Summary:We construct weak solutions of the anisotropic inverse mean curvature flow (A-IMCF) under very mild assumptions both on the anisotropy (which is simply a norm in \(\mathbb R^N\) with no ellip\-ticity nor smoothness requirements, in order to include the crystalline case) and on the initial data. By means of an approximation procedure introduced by Moser, our solutions are limits of anisotropic \(p\)-harmonic functions or \(p\)-capacitary functions (after a change of variable), and we get uniqueness both for the approximating solutions (i.e., uniqueness of \(p\)-capacitary functions) and the limiting ones. Our notion of weak solution still recovers variational and geometric definitions similar to those introduced by Huisken-Ilmanen, but requires to work within the broader setting of \(BV\)-functions. Despite of this, we still reach classical results like the continuity and exponential growth of perimeter, as well as outward minimizing properties of the sublevel sets. Moreover, by assuming the extra regularity given by an interior rolling ball condition (where a sliding Wulff shape plays the role of a ball), the solutions are shown to be continuous and satisfy Harnack inequalities. Finally, examples of explicit solutions are built.
ISSN:2331-8422