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Article Dans Une Revue Physical Review E Année : 2019

Frequency-doubling effect in acoustic reflection by a nonlinear, architected rotating-square metasurface

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Résumé

Nonlinear acoustic metamaterials offer the potential to enhance wave control opportunities beyond those already demonstrated via dispersion engineering in linear metamaterials. Managing the nonlinearities of a dynamic elastic system however remains a challenge, and the need now exists for new strategies to model and design these wave nonlinearities. Inspired by recent research on soft architected rotating-square structures, we propose herein a design for a nonlinear elastic metasurface with the capability to achieve nonlinear acoustic wave reflection control. The designed metasurface is composed of a single layer of rotating squares connected to thin and highly deformable ligaments placed between a rigid plate and a wall. It is shown that during the process of reflection at normal incidence, most of the incoming fundamental wave energy can be converted into the second harmonic wave. A conversion coefficient of approximately 0.8 towards the second harmonic is derived with a reflection coefficient of < 0.05 at the incoming fundamental frequency. The theoretical results obtained using the harmonic balance method (HBM) for a monochromatic pump source are confirmed by time-domain simulations for wave packets. The reported design of a nonlinear acoustic metasurface can be extended to a large family of architected structures, thus opening new avenues for realistic metasurface designs that provide for nonlinear or amplitude-dependent wave tailoring.
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Dates et versions

hal-02132143 , version 1 (16-05-2019)

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Xinxin Guo, Vitali Goussev, Vincent Tournat, Bolei Deng, Katia Bertoldi. Frequency-doubling effect in acoustic reflection by a nonlinear, architected rotating-square metasurface. Physical Review E , 2019, 99 (5), ⟨10.1103/PhysRevE.99.052209⟩. ⟨hal-02132143⟩
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