Spectral gap for obstacle scattering in dimension 2
Spectral Theory
2024-05-01 v1 Mathematical Physics
Analysis of PDEs
math.MP
Abstract
In this paper, we study the problem of scattering by several strictly convex obstacles, with smooth boundary and satisfying a non eclipse 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 in [arXiv:1105.3128]. In fact, we obtain a spectral gap for this type of objects, which also has applications in potential scattering. The second main ingredient of this article is a fractal uncertainty principle. We adapt the techniques of [arXiv:1906.08923] to apply this fractal uncertainty principle in our context.
Cite
@article{arxiv.2201.08259,
title = {Spectral gap for obstacle scattering in dimension 2},
author = {Lucas Vacossin},
journal= {arXiv preprint arXiv:2201.08259},
year = {2024}
}
Comments
87 pages. 16 figures