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Article Dans Une Revue APL Materials Année : 2021

Wave transport in 1D stealthy hyperuniform phononic materials made of non-resonant and resonant scatterers

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Résumé

Stealthy hyperuniform point patterns are characterized by a vanishing spatial Fourier transform around the origin of the reciprocal vector space. The long-range point density fluctuations are suppressed as well in materials consisting of such distribution of scatterers, opening up opportunities to control waves. Beside wave transport in such structured materials are driven by several elements, such as the acoustic properties of the host material, the scatterer characteristics, i.e., dimensions or resonant features, and the scatterer distribution patterns. The effects of these three basic elements on the wave transport properties are usually hard to discriminate. In this work, we analyze the transport properties of acoustic waves in one-dimensional phononic materials constituted of either non-resonant or resonant scatterers distributed along stealthy hyperuniform patterns in air. The pattern is controlled by the stealthiness, allowing us to continuously vary from random phononic materials to phononic crystals. The properties of the scatterers are controlled by their size and/or the resonant frequencies. The properties of the host material are controlled by the viscothermal losses. Transport properties of stealthy hyperuniform materials are found to be robust to both the scatterer dimensions and inherent viscothermal losses, while strongly affected by the scatterer resonances, which introduce sharp dips in the transmission coefficient.
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Romero-Garcia Cheron Kuznetsova Groby Felix Pagneux Garcia-Raffi APLM2021 Wave transport in 1D stealthy hyperuniform phononic materials made of non-resonnant annd resonant scatterers.pdf (8.13 Mo) Télécharger le fichier
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Dates et versions

hal-03448251 , version 1 (25-11-2021)

Identifiants

Citer

Vicente Romero-García, É. Chéron, S. Kuznetsova, Jean-Philippe Groby, Simon Félix, et al.. Wave transport in 1D stealthy hyperuniform phononic materials made of non-resonant and resonant scatterers. APL Materials, 2021, 9 (10), pp.101101. ⟨10.1063/5.0059928⟩. ⟨hal-03448251⟩
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