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Autores principales: Wu, Chengyu, Yang, Jiaqinq
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2406.06129
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author Wu, Chengyu
Yang, Jiaqinq
author_facet Wu, Chengyu
Yang, Jiaqinq
contents In this paper, we investigate on the direct and inverse scattering problem by an unbounded penetrable rough surface in a lossless medium. The cases that the transmission coefficient $μ\neq1$ and $μ=1$, which creates certain difficulties in the direct and inverse problem, respectively, are both considered. We first estalish the well-posedness of the direct problem using the integral equation method through an elaborate analysis. Then we carefully consider the singularity of the solutions to the problem with incident point source or hypersingular point source, where a simple and novel perspective is given for the derivation of the singularity. Finally, a global uniqueness result is proven for the inverse problem on the unique determination of the unbounded rough surface, the transmission coefficient and the wave number in the lower half plane from the measurements of the near field only on a line segment above the interface at a fixed frequency.
format Preprint
id arxiv_https___arxiv_org_abs_2406_06129
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Direct and inverse acoustic scattering by global rough surfaces
Wu, Chengyu
Yang, Jiaqinq
Analysis of PDEs
In this paper, we investigate on the direct and inverse scattering problem by an unbounded penetrable rough surface in a lossless medium. The cases that the transmission coefficient $μ\neq1$ and $μ=1$, which creates certain difficulties in the direct and inverse problem, respectively, are both considered. We first estalish the well-posedness of the direct problem using the integral equation method through an elaborate analysis. Then we carefully consider the singularity of the solutions to the problem with incident point source or hypersingular point source, where a simple and novel perspective is given for the derivation of the singularity. Finally, a global uniqueness result is proven for the inverse problem on the unique determination of the unbounded rough surface, the transmission coefficient and the wave number in the lower half plane from the measurements of the near field only on a line segment above the interface at a fixed frequency.
title Direct and inverse acoustic scattering by global rough surfaces
topic Analysis of PDEs
url https://arxiv.org/abs/2406.06129