Existence of guided waves due to a lineic perturbation of a 3D periodic medium

Bérangère Delourme; Patrick Joly; Elizaveta Vasilevskaya

doi:10.1016/j.aml.2016.11.017

Existence of guided waves due to a lineic perturbation of a 3D periodic medium

Bérangère Delourme
, Patrick Joly
, Elizaveta Vasilevskaya

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

Abstract

In this note, we exhibit a three dimensional structure that permits to guide waves. This structure is obtained by a geometrical perturbation of a 3D periodic domain that consists of a three dimensional grating of equi-spaced thin pipes oriented along three orthogonal directions. Homogeneous Neumann boundary conditions are imposed on the boundary of the domain. The diameter of the section of the pipes, of order ε>0, is supposed to be small. We prove that, for ε small enough, shrinking the section of one line of the grating by a factor of μ (0<μ<1) creates guided modes that propagate along the perturbed line. Our result relies on the asymptotic analysis (with respect to ε) of the spectrum of the Laplace–Neumann operator in this structure. Indeed, as ε tends to 0, the domain tends to a periodic graph, and the spectrum of the associated limit operator can be computed explicitly.

Original language	English
Pages (from-to)	146-152
Number of pages	7
Journal	Applied Mathematics Letters
Volume	69
DOIs	https://doi.org/10.1016/j.aml.2016.11.017
Publication status	Published - 1 Jul 2017

Keywords

Guided waves
Periodic media
Spectral theory

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10.1016/j.aml.2016.11.017

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title = "Existence of guided waves due to a lineic perturbation of a 3D periodic medium",

abstract = "In this note, we exhibit a three dimensional structure that permits to guide waves. This structure is obtained by a geometrical perturbation of a 3D periodic domain that consists of a three dimensional grating of equi-spaced thin pipes oriented along three orthogonal directions. Homogeneous Neumann boundary conditions are imposed on the boundary of the domain. The diameter of the section of the pipes, of order ε>0, is supposed to be small. We prove that, for ε small enough, shrinking the section of one line of the grating by a factor of μ (0<μ<1) creates guided modes that propagate along the perturbed line. Our result relies on the asymptotic analysis (with respect to ε) of the spectrum of the Laplace–Neumann operator in this structure. Indeed, as ε tends to 0, the domain tends to a periodic graph, and the spectrum of the associated limit operator can be computed explicitly.",

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T1 - Existence of guided waves due to a lineic perturbation of a 3D periodic medium

AU - Delourme, Bérangère

AU - Joly, Patrick

AU - Vasilevskaya, Elizaveta

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Y1 - 2017/7/1

N2 - In this note, we exhibit a three dimensional structure that permits to guide waves. This structure is obtained by a geometrical perturbation of a 3D periodic domain that consists of a three dimensional grating of equi-spaced thin pipes oriented along three orthogonal directions. Homogeneous Neumann boundary conditions are imposed on the boundary of the domain. The diameter of the section of the pipes, of order ε>0, is supposed to be small. We prove that, for ε small enough, shrinking the section of one line of the grating by a factor of μ (0<μ<1) creates guided modes that propagate along the perturbed line. Our result relies on the asymptotic analysis (with respect to ε) of the spectrum of the Laplace–Neumann operator in this structure. Indeed, as ε tends to 0, the domain tends to a periodic graph, and the spectrum of the associated limit operator can be computed explicitly.

AB - In this note, we exhibit a three dimensional structure that permits to guide waves. This structure is obtained by a geometrical perturbation of a 3D periodic domain that consists of a three dimensional grating of equi-spaced thin pipes oriented along three orthogonal directions. Homogeneous Neumann boundary conditions are imposed on the boundary of the domain. The diameter of the section of the pipes, of order ε>0, is supposed to be small. We prove that, for ε small enough, shrinking the section of one line of the grating by a factor of μ (0<μ<1) creates guided modes that propagate along the perturbed line. Our result relies on the asymptotic analysis (with respect to ε) of the spectrum of the Laplace–Neumann operator in this structure. Indeed, as ε tends to 0, the domain tends to a periodic graph, and the spectrum of the associated limit operator can be computed explicitly.

KW - Guided waves

KW - Periodic media

KW - Spectral theory

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U2 - 10.1016/j.aml.2016.11.017

DO - 10.1016/j.aml.2016.11.017

M3 - Article

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SN - 0893-9659

VL - 69

SP - 146

EP - 152

JO - Applied Mathematics Letters

JF - Applied Mathematics Letters

ER -

Existence of guided waves due to a lineic perturbation of a 3D periodic medium

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