第 2 维障碍物散射的光谱间隙

IF 1.8 1区数学 Q1 MATHEMATICS Analysis & PDE Pub Date : 2024-04-24 DOI:10.2140/apde.2024.17.1019

Lucas Vacossin

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引用次数: 0

摘要

我们研究了几个严格凸面障碍物的散射问题，这些障碍物边界光滑，满足非椭圆条件。我们证明，仅在维度 2 中，拉普拉斯算子在障碍物外的离谱延续存在谱隙。这一结果的证明依赖于Nonnenmacher等人对开放双曲量子映射的还原（Ann. ofMath. (2)179:1 (2014), 179-251）。事实上，我们得到了这类对象的谱隙，这在势散射中也有应用。本文的第二个主要内容是分形不确定性原理。我们采用了 Dyatlov 等人的技术（J. Amer.Math.35:2 (2022), 361-465）的技术，将分形不确定性原理应用到我们的研究中。

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Spectral gap for obstacle scattering in dimension 2

We study the problem of scattering by several strictly convex obstacles, with smooth boundary and satisfying a noneclipse condition. We show, in dimension 2 only, the existence of a spectral gap for the meromorphic continuation of the Laplace operator outside the obstacles. The proof of this result relies on a reduction to an open hyperbolic quantum map, achieved by Nonnenmacher et al. (Ann. of Math. $(2)$ 179:1 (2014), 179–251). In fact, we obtain a spectral gap for this type of object, which also has applications in potential scattering. The second main ingredient of this article is a fractal uncertainty principle. We adapt the techniques of Dyatlov et al. (J. Amer. Math. Soc. 35:2 (2022), 361–465) to apply this fractal uncertainty principle in our context.

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来源期刊

Analysis & PDE MATHEMATICS, APPLIED-MATHEMATICS

CiteScore

3.80

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： APDE aims to be the leading specialized scholarly publication in mathematical analysis. The full editorial board votes on all articles, accounting for the journal’s exceptionally high standard and ensuring its broad profile.

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