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Nonlocal dynamics of dissipative phononic fluids

Abstract : We describe the nonlocal effective properties of a two-dimensional dissipative phononic crystal made by periodic arrays of rigid and motionless cylinders embedded in a viscothermal fluid such as air. The description is based on a nonlocal theory of sound propagation in stationary random fluid/rigid media that was proposed by Lafarge and Nemati [Wave Motion 50, 1016 (2013)]. This scheme arises from a deep analogy with electromagnetism and a set of physics-based postulates including, particularly, the action-response procedures, whereby the effective density and bulk modulus are determined. Here, we revisit this approach, and clarify further its founding physical principles through presenting it in a unified formulation together with the two-scale asymptotic homogenization theory that is interpreted as the local limit. Strong evidence is provided to show that the validity of the principles and postulates within the nonlocal theory extends to high-frequency bands, well beyond the long-wavelength regime. In particular, we demonstrate that up to the third Brillouin zone including the Bragg scattering, the complex and dispersive phase velocity of the least-attenuated wave in the phononic crystal which is generated by our nonlocal scheme agrees exactly with that reproduced by a direct approach based on the Bloch theorem and multiple scattering method. In high frequencies, the effective wave and its associated parameters are analyzed by treating the phononic crystal as a random medium.
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Contributeur : Aroune Duclos <>
Soumis le : jeudi 20 février 2020 - 17:15:58
Dernière modification le : mercredi 17 février 2021 - 15:26:08

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Navid Nemati, Yoonkyung Lee, Denis Lafarge, Aroune Duclos, Nicholas Fang. Nonlocal dynamics of dissipative phononic fluids. Physical Review B: Condensed Matter and Materials Physics (1998-2015), American Physical Society, 2017, 95 (22), pp.2596-2607. ⟨10.1103/PhysRevB.95.224304⟩. ⟨hal-02486199⟩



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