Sound transmission through an acoustic porous metasurface with periodic structures
Sound transmission through an acoustic porous metasurface with periodic structures
We report an analytical, numerical, and experimental study of sound transmission through a metasurface fabricated by porous materials, detailing systematically the factors that influence acoustic properties. The design of the metasurface is composed of four elements with varying properties, which are aligned in a periodic manner. The structures are carefully designed to form a uniform phase shift profile in one period. It is able to refract an incidence wave in an anomalous yet controllable way. A good agreement of refraction behavior between simulated and experimental results is achieved by the study. Furthermore, we systemically summarize the relationships between the refraction and the incidence angles for structures with various ratios of wavelengths and period lengths. Remarkably, the study proves that the propagation directions and the number of refracted waves are only affected by period lengths at a specified frequency. The phase shift profile only has an influence on energy distribution in the refraction region. The study suggests that a careful design of phase shift profile plays an important role in controlling sound energy distribution of the periodic structure, which is vital for applying this kind of porous metasurface in sound absorption and isolation in the future.
Fang, Yi
101f62bc-99cd-4537-b666-3f489342590c
Zhang, Xin
788d80a9-6117-4670-81ef-f8ef2d26d30c
Zhou, Jie
ea4ca5fc-7c95-4b68-824a-b16792fee77a
April 2017
Fang, Yi
101f62bc-99cd-4537-b666-3f489342590c
Zhang, Xin
788d80a9-6117-4670-81ef-f8ef2d26d30c
Zhou, Jie
ea4ca5fc-7c95-4b68-824a-b16792fee77a
Fang, Yi, Zhang, Xin and Zhou, Jie
(2017)
Sound transmission through an acoustic porous metasurface with periodic structures.
Applied Physics Letters, 110, [171904].
(doi:10.1063/1.4982633).
Abstract
We report an analytical, numerical, and experimental study of sound transmission through a metasurface fabricated by porous materials, detailing systematically the factors that influence acoustic properties. The design of the metasurface is composed of four elements with varying properties, which are aligned in a periodic manner. The structures are carefully designed to form a uniform phase shift profile in one period. It is able to refract an incidence wave in an anomalous yet controllable way. A good agreement of refraction behavior between simulated and experimental results is achieved by the study. Furthermore, we systemically summarize the relationships between the refraction and the incidence angles for structures with various ratios of wavelengths and period lengths. Remarkably, the study proves that the propagation directions and the number of refracted waves are only affected by period lengths at a specified frequency. The phase shift profile only has an influence on energy distribution in the refraction region. The study suggests that a careful design of phase shift profile plays an important role in controlling sound energy distribution of the periodic structure, which is vital for applying this kind of porous metasurface in sound absorption and isolation in the future.
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Accepted/In Press date: 14 April 2017
e-pub ahead of print date: 28 April 2017
Published date: April 2017
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Local EPrints ID: 415921
URI: http://eprints.soton.ac.uk/id/eprint/415921
ISSN: 0003-6951
PURE UUID: 0ea5a8f3-2f86-4859-b69b-dbccb0fbc888
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Date deposited: 28 Nov 2017 17:31
Last modified: 15 Mar 2024 16:59
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Author:
Yi Fang
Author:
Xin Zhang
Author:
Jie Zhou
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