Ultrathin skin cloaks with metasurfaces for audible sound

Shilong Zhai; Huaijun Chen; Changlin Ding; Linlin Li; Fangliang Shen; Chunrong Luo; Xiaopeng Zhao

doi:10.1088/0022-3727/49/22/225302

Ultrathin skin cloaks with metasurfaces for audible sound

Shilong Zhai, Huaijun Chen, Changlin Ding, Linlin Li, Fangliang Shen, Chunrong Luo, Xiaopeng Zhao

School of Physical Science and Technology

Northwestern Polytechnical University Xian

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

49 Scopus citations

Abstract

We report a design of 2D acoustic skin cloaks by using ultrathin metasurfaces in audible range. The microunit of this metasurface is constructed by a cavity coupled with a membrane. This cloak can completely compensate the wave front discrepancy generated by the scattering of the hidden object because the microunits are capable of arbitrarily modulating the reflected amplitude and phase. The operating frequency ranges from 3.54 kHz to 3.93 kHz. The tolerated maximum incident angle decreases as the height of the hidden object increases. Moreover, the cloak's thickness is only approximately λ/10, so that we can make an object in almost any shape undetectable without obviously increasing the size of the whole system. This intriguing feature forms a sharp contrast to most bulky cloaks on the basis of coordination transformations.

Original language	English
Article number	225302
Journal	Journal of Physics D: Applied Physics
Volume	49
Issue number	22
DOIs	https://doi.org/10.1088/0022-3727/49/22/225302
State	Published - 4 May 2016

Keywords

audible sound
metasurface
skin cloak
ultrathin

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10.1088/0022-3727/49/22/225302

Cite this

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abstract = "We report a design of 2D acoustic skin cloaks by using ultrathin metasurfaces in audible range. The microunit of this metasurface is constructed by a cavity coupled with a membrane. This cloak can completely compensate the wave front discrepancy generated by the scattering of the hidden object because the microunits are capable of arbitrarily modulating the reflected amplitude and phase. The operating frequency ranges from 3.54 kHz to 3.93 kHz. The tolerated maximum incident angle decreases as the height of the hidden object increases. Moreover, the cloak's thickness is only approximately λ/10, so that we can make an object in almost any shape undetectable without obviously increasing the size of the whole system. This intriguing feature forms a sharp contrast to most bulky cloaks on the basis of coordination transformations.",

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AU - Zhai, Shilong

AU - Chen, Huaijun

AU - Ding, Changlin

AU - Li, Linlin

AU - Shen, Fangliang

AU - Luo, Chunrong

AU - Zhao, Xiaopeng

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AB - We report a design of 2D acoustic skin cloaks by using ultrathin metasurfaces in audible range. The microunit of this metasurface is constructed by a cavity coupled with a membrane. This cloak can completely compensate the wave front discrepancy generated by the scattering of the hidden object because the microunits are capable of arbitrarily modulating the reflected amplitude and phase. The operating frequency ranges from 3.54 kHz to 3.93 kHz. The tolerated maximum incident angle decreases as the height of the hidden object increases. Moreover, the cloak's thickness is only approximately λ/10, so that we can make an object in almost any shape undetectable without obviously increasing the size of the whole system. This intriguing feature forms a sharp contrast to most bulky cloaks on the basis of coordination transformations.

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Ultrathin skin cloaks with metasurfaces for audible sound

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