Transmittivity through straight and stublike waveguides in a two-dimensional phononic crystal

Abdelkrim Khelif; Bahran Djafari-Rouhani; Jérôme Vasseur; Pierre Deymier; Philippe Lambin; Léonard Dobrzynski

doi:10.1103/PhysRevB.65.174308

Transmittivity through straight and stublike waveguides in a two-dimensional phononic crystal

Abdelkrim Khelif, Bahran Djafari-Rouhani, Jérôme Vasseur, Pierre Deymier, Philippe Lambin, Léonard Dobrzynski

Research output: Contribution to journal › Article

Abstract

We study theoretically the propagation of acoustic waves through a linear waveguide, created inside a two-dimensional phononic crystal, along which a side branch (or stub) is attached. The primary effect of this resonator is to induce zeros of transmission in the transmission spectrum of the perfect waveguide. The transmittivity exhibits very narrow dips whose frequencies depend upon the width and the length of the stub. When a gap exists in the transmittivity of the perfect waveguide, the stub may also permit selective frequency transmission in this gap. We have considered phononic crystals constituted by either fluid or solid constituents. The calculations of the band structure and transmittivity are performed by a combination of finite-difference time domain and plane-wave expansion methods.

Original language	English
Pages (from-to)	174308
Journal	Physical Review. B, Condensed Matter and Materials Physics
Volume	65
Issue number	17
DOIs	https://doi.org/10.1103/PhysRevB.65.174308
Publication status	Published - 2002

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abstract = "We study theoretically the propagation of acoustic waves through a linear waveguide, created inside a two-dimensional phononic crystal, along which a side branch (or stub) is attached. The primary effect of this resonator is to induce zeros of transmission in the transmission spectrum of the perfect waveguide. The transmittivity exhibits very narrow dips whose frequencies depend upon the width and the length of the stub. When a gap exists in the transmittivity of the perfect waveguide, the stub may also permit selective frequency transmission in this gap. We have considered phononic crystals constituted by either fluid or solid constituents. The calculations of the band structure and transmittivity are performed by a combination of finite-difference time domain and plane-wave expansion methods.",

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AU - Khelif, Abdelkrim

AU - Djafari-Rouhani, Bahran

AU - Vasseur, Jérôme

AU - Deymier, Pierre

AU - Lambin, Philippe

AU - Dobrzynski, Léonard

PY - 2002

Y1 - 2002

N2 - We study theoretically the propagation of acoustic waves through a linear waveguide, created inside a two-dimensional phononic crystal, along which a side branch (or stub) is attached. The primary effect of this resonator is to induce zeros of transmission in the transmission spectrum of the perfect waveguide. The transmittivity exhibits very narrow dips whose frequencies depend upon the width and the length of the stub. When a gap exists in the transmittivity of the perfect waveguide, the stub may also permit selective frequency transmission in this gap. We have considered phononic crystals constituted by either fluid or solid constituents. The calculations of the band structure and transmittivity are performed by a combination of finite-difference time domain and plane-wave expansion methods.

AB - We study theoretically the propagation of acoustic waves through a linear waveguide, created inside a two-dimensional phononic crystal, along which a side branch (or stub) is attached. The primary effect of this resonator is to induce zeros of transmission in the transmission spectrum of the perfect waveguide. The transmittivity exhibits very narrow dips whose frequencies depend upon the width and the length of the stub. When a gap exists in the transmittivity of the perfect waveguide, the stub may also permit selective frequency transmission in this gap. We have considered phononic crystals constituted by either fluid or solid constituents. The calculations of the band structure and transmittivity are performed by a combination of finite-difference time domain and plane-wave expansion methods.

U2 - 10.1103/PhysRevB.65.174308

DO - 10.1103/PhysRevB.65.174308

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JO - Physical Review. B, Condensed Matter and Materials Physics

JF - Physical Review. B, Condensed Matter and Materials Physics

IS - 17

ER -

Transmittivity through straight and stublike waveguides in a two-dimensional phononic crystal

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