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Autori principali: Chesnel, Lucas, Haddar, Houssem, Li, Hongjie, Xiao, Jingni
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2406.17527
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author Chesnel, Lucas
Haddar, Houssem
Li, Hongjie
Xiao, Jingni
author_facet Chesnel, Lucas
Haddar, Houssem
Li, Hongjie
Xiao, Jingni
contents We consider the scattering of waves by a penetrable inclusion embedded in some reference medium. We exhibit examples of materials and geometries for which non-scattering frequencies exist, i.e., for which at some frequencies there are incident fields which produce null scattered fields outside of the inhomogeneity. We show in particular that certain domains with corners or even cusps can support non-scattering frequencies. We relate the latter, for some inclusions, to resonance frequencies for Dirichlet or Neumann cavities. We also find situations where incident non-scattering fields solve the Helmholtz equation in a neighborhood of the inhomogeneity and not in the whole space. Finally, in relation with invisibility, we give examples of inclusions of anisotropic materials which are non-scattering for all real frequencies. We prove that corresponding material indices must have a special structure on the boundary.
format Preprint
id arxiv_https___arxiv_org_abs_2406_17527
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Examples of non-scattering inhomogeneities
Chesnel, Lucas
Haddar, Houssem
Li, Hongjie
Xiao, Jingni
Analysis of PDEs
35J05, 35P25, 35N25
We consider the scattering of waves by a penetrable inclusion embedded in some reference medium. We exhibit examples of materials and geometries for which non-scattering frequencies exist, i.e., for which at some frequencies there are incident fields which produce null scattered fields outside of the inhomogeneity. We show in particular that certain domains with corners or even cusps can support non-scattering frequencies. We relate the latter, for some inclusions, to resonance frequencies for Dirichlet or Neumann cavities. We also find situations where incident non-scattering fields solve the Helmholtz equation in a neighborhood of the inhomogeneity and not in the whole space. Finally, in relation with invisibility, we give examples of inclusions of anisotropic materials which are non-scattering for all real frequencies. We prove that corresponding material indices must have a special structure on the boundary.
title Examples of non-scattering inhomogeneities
topic Analysis of PDEs
35J05, 35P25, 35N25
url https://arxiv.org/abs/2406.17527