On a conjecture of De Giorgi about the phase-field approximation of the Willmore functional

Autor:	Bellettini, Giovanni, Freguglia, Mattia, Picenni, Nicola
Rok vydání:	2022
Předmět:	Mathematics - Differential Geometry Mathematics - Classical Analysis and ODEs 49J45 49Q20
Druh dokumentu:	Working Paper
DOI:	10.1007/s00205-023-01870-z
Popis:	In 1991 De Giorgi conjectured that, given $\lambda >0$, if $\mu_\varepsilon$ stands for the density of the Allen-Cahn energy and $v_\varepsilon$ represents its first variation, then $\int [v_\varepsilon^2 + \lambda] d\mu_\varepsilon$ should $\Gamma$-converge to $c\lambda \mathrm{Per}(E) + k \mathcal{W}(\Sigma)$ for some real constant $k$, where $\mathrm{Per}(E)$ is the perimeter of the set $E$, $\Sigma=\partial E$, $\mathcal{W}(\Sigma)$ is the Willmore functional, and $c$ is an explicit positive constant. A modified version of this conjecture was proved in space dimensions $2$ and $3$ by R\"oger and Sch\"atzle, when the term $\int v_\varepsilon^2 \, d\mu_\varepsilon$ is replaced by $ \int v_\varepsilon^2 {\varepsilon}^{-1} dx$, with a suitable $k>0$. In the present paper we show that, surprisingly, the original De Giorgi conjecture holds with $k=0$. Further properties on the limit measures obtained under a uniform control of the approximating energies are also provided. Comment: 32 pages. Comments are welcome!
Databáze:	arXiv
Externí odkaz:	http://arxiv.org/abs/2206.04649 Zobrazit plný text záznamu Plný text ve formátu PDF Plný text ve formátu HTML
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