作为 p 电容势极限的各向异性(和晶体)反平均曲率流的弱解

IF 1.7 2区 数学 Q1 MATHEMATICS Journal of Functional Analysis Pub Date : 2024-08-28 DOI:10.1016/j.jfa.2024.110642
Esther Cabezas-Rivas , Salvador Moll , Marcos Solera
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引用次数: 0

摘要

我们在对各向异性(它只是 RN 中的一个规范,没有椭圆性或光滑性的要求,以便包括晶体情况)和初始数据作非常温和的假设下,构建了各向异性反向平均曲率流(A-IMCF)的弱解。通过莫泽引入的近似程序,我们的解是各向异性 p 谐函数或 p 容函数(变量改变后)的极限,我们得到了近似解(即 p 容函数的唯一性)和极限解的唯一性。我们的弱解概念仍然恢复了类似于 Huisken-Ilmanen 引入的变分和几何定义,但需要在更广泛的 BV 函数背景下工作。尽管如此,我们仍然获得了经典结果,如周长的连续性和指数增长,以及子级集的向外最小化特性。此外,通过假设内部滚动球条件(其中滑动的 Wulff 形状扮演球的角色)给出的额外规则性,我们证明了解的连续性并满足哈纳克不等式。最后,还建立了显式解的实例。
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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 RN with no ellipticity 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.

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来源期刊
CiteScore
3.20
自引率
5.90%
发文量
271
审稿时长
7.5 months
期刊介绍: The Journal of Functional Analysis presents original research papers in all scientific disciplines in which modern functional analysis plays a basic role. Articles by scientists in a variety of interdisciplinary areas are published. Research Areas Include: • Significant applications of functional analysis, including those to other areas of mathematics • New developments in functional analysis • Contributions to important problems in and challenges to functional analysis
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Editorial Board The Leray transform: Distinguished measures, symmetries and polygamma inequalities Power boundedness and related properties for weighted composition operators on S(Rd) Optimal bounds for the Dunkl kernel in the dihedral case Scalar curvature rigidity and the higher mapping degree
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