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Article dans une revue

Ultra-thin metamaterial for perfect and quasi-omnidirectional sound absorption

Abstract : Using the concepts of slow sound and critical coupling, an ultra-thin acoustic metamaterial panel for perfect and quasi-omnidirectional absorption is theoretically and experimentally conceived in this work. The system is made of a rigid panel with a periodic distribution of thin closed slits, the upper wall of which is loaded by Helmholtz Resonators (HRs). The presence of resonators produces a slow sound propagation shifting the resonance frequency of the slit to the deep sub-wavelength regime (λ/88). By controlling the geometry of the slit and the HRs, the intrinsic visco-thermal losses can be tuned in order to exactly compensate the energy leakage of the system and fulfill the critical coupling condition to create the perfect absorption of sound in a large range of incidence angles due to the deep subwavelength behavior.
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Contributeur : Jean-Philippe Groby <>
Soumis le : jeudi 19 mars 2020 - 09:13:59
Dernière modification le : jeudi 10 septembre 2020 - 13:28:42

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N. Jimenez, W. Huang, V. Romero-Garcia, V. Pagneux, J.-P. Groby. Ultra-thin metamaterial for perfect and quasi-omnidirectional sound absorption. Applied Physics Letters, American Institute of Physics, 2016, 109 (12), pp.121902. ⟨10.1063/1.4962328⟩. ⟨hal-02511750⟩



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