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Fundamentals and Applications of Acoustic Metamaterials [electronic resource] : From Seismic to Radio Frequency / edited by Vicente Romero-García, Anne-Christine Hladky-Hennion.

Contributor(s): Romero Garcia, Vicente | Hladky-Hennion, Anne-Christine.
Material type: materialTypeLabelBookSeries: Metamaterials applied to waves set: volume 1.Publisher: London : Hoboken, NJ : ISTE, Ltd. ; John Wiley & Sons, Incorporated, 2019Description: 1 online resource (325 p.).ISBN: 9781119649182; 1119649188; 9781119649168; 1119649161.Subject(s): Metamaterials -- Acoustic propertiesGenre/Form: Electronic books.Additional physical formats: Print version:: Fundamentals and Applications of Acoustic Metamaterials : From Seismic to Radio FrequencyDDC classification: 620.1/1294 Online resources: Wiley Online Library
Contents:
Overview of the Current Research in Acoustic Metamaterials. Visco-thermal Effects in Acoustic Metamaterials Based on Local Resonances / José Sánchez-Dehesa, Vicente Cutanda Henríquez,-- Locally Resonant Metamaterials for Plate Waves: the Respective Role of Compressional Versus Flexural Resonances of a Dense Forest of Vertical Rods / Martin Lott, Philippe Roux -- Slow Sound and Critical Coupling to Design Deep Subwavelength Acoustic Metamaterials for Perfect Absorption and Efficient Diffusion / Vicente Romero-García, Noé Jiménez, Jean-Philippe Groby -- Principles and Fundamentals of Acoustic Metamaterials. Homogenization of Thin 3D Periodic Structures in the Time Domain - Effective Boundary and Jump Conditions / Agnès Maurel, Kim Pham, Jean-Jacques Marigo -- The Plane Wave Expansion Method / Jérôme Vasseur -- Introduction to Multiple Scattering Theory / Logan Schwan, Jean-Philippe Groby -- Applications of Acoustic Metamaterials. Acoustic Metamaterials for Industrial Applications / Clément Lagarrigue, Damien Lecoq -- Elastic Metamaterials for Radiofrequency Applications / Sarah Benchabane, Alexandre Reinhardt -- Acoustic Metamaterials and Underwater Acoustics Applications / Christian Audoly -- Appendices. Homogenization of Thin 3D Periodic Structures in the Time Domain - Effective Boundary and Jump Conditions -- Introduction to the Multiple Scattering Theory: Green-Kirchhoff Integral and Bloch Wave Amplitudes.
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Overview of the Current Research in Acoustic Metamaterials. Visco-thermal Effects in Acoustic Metamaterials Based on Local Resonances / José Sánchez-Dehesa, Vicente Cutanda Henríquez,-- Locally Resonant Metamaterials for Plate Waves: the Respective Role of Compressional Versus Flexural Resonances of a Dense Forest of Vertical Rods / Martin Lott, Philippe Roux -- Slow Sound and Critical Coupling to Design Deep Subwavelength Acoustic Metamaterials for Perfect Absorption and Efficient Diffusion / Vicente Romero-García, Noé Jiménez, Jean-Philippe Groby -- Principles and Fundamentals of Acoustic Metamaterials. Homogenization of Thin 3D Periodic Structures in the Time Domain - Effective Boundary and Jump Conditions / Agnès Maurel, Kim Pham, Jean-Jacques Marigo -- The Plane Wave Expansion Method / Jérôme Vasseur -- Introduction to Multiple Scattering Theory / Logan Schwan, Jean-Philippe Groby -- Applications of Acoustic Metamaterials. Acoustic Metamaterials for Industrial Applications / Clément Lagarrigue, Damien Lecoq -- Elastic Metamaterials for Radiofrequency Applications / Sarah Benchabane, Alexandre Reinhardt -- Acoustic Metamaterials and Underwater Acoustics Applications / Christian Audoly -- Appendices. Homogenization of Thin 3D Periodic Structures in the Time Domain - Effective Boundary and Jump Conditions -- Introduction to the Multiple Scattering Theory: Green-Kirchhoff Integral and Bloch Wave Amplitudes.

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