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Shear-mediated contributions to the effective properties of soft acoustic metamaterials including negative index.


ABSTRACT: Here we show that, for sub-wavelength particles in a fluid, viscous losses due to shear waves and their influence on neighbouring particles significantly modify the effective acoustic properties, and thereby the conditions at which negative acoustic refraction occurs. Building upon earlier single particle scattering work, we adopt a multiple scattering approach to derive the effective properties (density, bulk modulus, wavenumber). We show,through theoretical prediction, the implications for the design of "soft" (ultrasonic) metamaterials based on locally-resonant sub-wavelength porous rubber particles, through selection of particle size and concentration, and demonstrate tunability of the negative speed zones by modifying the viscosity of the suspending medium. For these lossy materials with complex effective properties, we confirm the use of phase angles to define the backward propagation condition in preference to "single-" and "double-negative" designations.

SUBMITTER: Forrester DM 

PROVIDER: S-EPMC4685261 | biostudies-literature | 2015 Dec

REPOSITORIES: biostudies-literature

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Shear-mediated contributions to the effective properties of soft acoustic metamaterials including negative index.

Forrester Derek Michael DM   Pinfield Valerie J VJ  

Scientific reports 20151221


Here we show that, for sub-wavelength particles in a fluid, viscous losses due to shear waves and their influence on neighbouring particles significantly modify the effective acoustic properties, and thereby the conditions at which negative acoustic refraction occurs. Building upon earlier single particle scattering work, we adopt a multiple scattering approach to derive the effective properties (density, bulk modulus, wavenumber). We show,through theoretical prediction, the implications for the  ...[more]

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