The anomalous manipulation of acoustic waves based on planar metasurface with split hollow sphere

Changlin Ding; Huaijun Chen; Shilong Zhai; Song Liu; Xiaopeng Zhao

doi:10.1088/0022-3727/48/4/045303

The anomalous manipulation of acoustic waves based on planar metasurface with split hollow sphere

Changlin Ding, Huaijun Chen, Shilong Zhai, Song Liu, Xiaopeng Zhao

School of Physical Science and Technology

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

68 Scopus citations

Abstract

This paper presents an acoustic metasurface (AMS) model consisting of split hollow sphere (SHS) resonator arrays with the property of negative modulus. It shows that the AMS can imprint phase discontinuities on an acoustic reflected wave as it traverses the interface between two media. By designing suitable phase gradients, the AMS enables the perpendicularly incident acoustic wave to be converted to a surface wave or reflected in any angle. Four kinds of AMSs, which can anomalously manipulate the reflected wave's direction, are simulated to fulfill the generalized Snell's law. The results provide an available and simple path to experimentally achieving the AMS.

Original language	English
Article number	045303
Journal	Journal of Physics D: Applied Physics
Volume	48
Issue number	4
DOIs	https://doi.org/10.1088/0022-3727/48/4/045303
State	Published - 4 Apr 2015

Keywords

acoustic metasurface
anomalous reflection
phase gradient
split hollow sphere

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10.1088/0022-3727/48/4/045303

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title = "The anomalous manipulation of acoustic waves based on planar metasurface with split hollow sphere",

abstract = "This paper presents an acoustic metasurface (AMS) model consisting of split hollow sphere (SHS) resonator arrays with the property of negative modulus. It shows that the AMS can imprint phase discontinuities on an acoustic reflected wave as it traverses the interface between two media. By designing suitable phase gradients, the AMS enables the perpendicularly incident acoustic wave to be converted to a surface wave or reflected in any angle. Four kinds of AMSs, which can anomalously manipulate the reflected wave's direction, are simulated to fulfill the generalized Snell's law. The results provide an available and simple path to experimentally achieving the AMS.",

keywords = "acoustic metasurface, anomalous reflection, phase gradient, split hollow sphere",

author = "Changlin Ding and Huaijun Chen and Shilong Zhai and Song Liu and Xiaopeng Zhao",

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T1 - The anomalous manipulation of acoustic waves based on planar metasurface with split hollow sphere

AU - Ding, Changlin

AU - Chen, Huaijun

AU - Zhai, Shilong

AU - Liu, Song

AU - Zhao, Xiaopeng

PY - 2015/4/4

Y1 - 2015/4/4

N2 - This paper presents an acoustic metasurface (AMS) model consisting of split hollow sphere (SHS) resonator arrays with the property of negative modulus. It shows that the AMS can imprint phase discontinuities on an acoustic reflected wave as it traverses the interface between two media. By designing suitable phase gradients, the AMS enables the perpendicularly incident acoustic wave to be converted to a surface wave or reflected in any angle. Four kinds of AMSs, which can anomalously manipulate the reflected wave's direction, are simulated to fulfill the generalized Snell's law. The results provide an available and simple path to experimentally achieving the AMS.

AB - This paper presents an acoustic metasurface (AMS) model consisting of split hollow sphere (SHS) resonator arrays with the property of negative modulus. It shows that the AMS can imprint phase discontinuities on an acoustic reflected wave as it traverses the interface between two media. By designing suitable phase gradients, the AMS enables the perpendicularly incident acoustic wave to be converted to a surface wave or reflected in any angle. Four kinds of AMSs, which can anomalously manipulate the reflected wave's direction, are simulated to fulfill the generalized Snell's law. The results provide an available and simple path to experimentally achieving the AMS.

KW - acoustic metasurface

KW - anomalous reflection

KW - phase gradient

KW - split hollow sphere

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The anomalous manipulation of acoustic waves based on planar metasurface with split hollow sphere

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