Acoustic passive cloaking using thin outer resonators

Lucas Chesnel; Jérémy Heleine; Sergei A. Nazarov

doi:10.1007/s00033-022-01736-6

Acoustic passive cloaking using thin outer resonators

Lucas Chesnel
, Jérémy Heleine
, Sergei A. Nazarov

Institute for Problems in Mechanical Engineering of the Russian Academy of Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

We consider the propagation of acoustic waves in a 2D waveguide unbounded in one direction and containing a compact obstacle. The wavenumber is fixed so that only one mode can propagate. The goal of this work is to propose a method to cloak the obstacle. More precisely, we add to the geometry thin outer resonators of width ε and we explain how to choose their positions as well as their lengths to get a transmission coefficient approximately equal to one as if there were no obstacle. In the process, we also investigate several related problems. In particular, we explain how to get zero transmission and how to design phase shifters. The approach is based on asymptotic analysis in presence of thin resonators. An essential point is that we work around resonance lengths of the resonators. This allows us to obtain effects of order one with geometrical perturbations of width ε. Various numerical experiments illustrate the theory.

Original language	English
Article number	98
Journal	Zeitschrift fur Angewandte Mathematik und Physik
Volume	73
Issue number	3
DOIs	https://doi.org/10.1007/s00033-022-01736-6
Publication status	Published - 1 Jun 2022

Keywords

Acoustic waveguide
Asymptotic analysis
Complex resonance
Passive cloaking
Scattering coefficients
Thin resonator

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10.1007/s00033-022-01736-6

Cite this

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title = "Acoustic passive cloaking using thin outer resonators",

abstract = "We consider the propagation of acoustic waves in a 2D waveguide unbounded in one direction and containing a compact obstacle. The wavenumber is fixed so that only one mode can propagate. The goal of this work is to propose a method to cloak the obstacle. More precisely, we add to the geometry thin outer resonators of width ε and we explain how to choose their positions as well as their lengths to get a transmission coefficient approximately equal to one as if there were no obstacle. In the process, we also investigate several related problems. In particular, we explain how to get zero transmission and how to design phase shifters. The approach is based on asymptotic analysis in presence of thin resonators. An essential point is that we work around resonance lengths of the resonators. This allows us to obtain effects of order one with geometrical perturbations of width ε. Various numerical experiments illustrate the theory.",

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AU - Chesnel, Lucas

AU - Heleine, Jérémy

AU - Nazarov, Sergei A.

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N2 - We consider the propagation of acoustic waves in a 2D waveguide unbounded in one direction and containing a compact obstacle. The wavenumber is fixed so that only one mode can propagate. The goal of this work is to propose a method to cloak the obstacle. More precisely, we add to the geometry thin outer resonators of width ε and we explain how to choose their positions as well as their lengths to get a transmission coefficient approximately equal to one as if there were no obstacle. In the process, we also investigate several related problems. In particular, we explain how to get zero transmission and how to design phase shifters. The approach is based on asymptotic analysis in presence of thin resonators. An essential point is that we work around resonance lengths of the resonators. This allows us to obtain effects of order one with geometrical perturbations of width ε. Various numerical experiments illustrate the theory.

AB - We consider the propagation of acoustic waves in a 2D waveguide unbounded in one direction and containing a compact obstacle. The wavenumber is fixed so that only one mode can propagate. The goal of this work is to propose a method to cloak the obstacle. More precisely, we add to the geometry thin outer resonators of width ε and we explain how to choose their positions as well as their lengths to get a transmission coefficient approximately equal to one as if there were no obstacle. In the process, we also investigate several related problems. In particular, we explain how to get zero transmission and how to design phase shifters. The approach is based on asymptotic analysis in presence of thin resonators. An essential point is that we work around resonance lengths of the resonators. This allows us to obtain effects of order one with geometrical perturbations of width ε. Various numerical experiments illustrate the theory.

KW - Acoustic waveguide

KW - Asymptotic analysis

KW - Complex resonance

KW - Passive cloaking

KW - Scattering coefficients

KW - Thin resonator

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DO - 10.1007/s00033-022-01736-6

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Acoustic passive cloaking using thin outer resonators

Abstract

Keywords

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