Experimental realization of all-angle negative refraction in acoustic gradient metasurface

Bingyi Liu; Bin Ren; Jiajun Zhao; Xiaodong Xu; Yuxin Feng; Wenyu Zhao; Yongyuan Jiang

doi:10.1063/1.5004005

Experimental realization of all-angle negative refraction in acoustic gradient metasurface

Bingyi Liu
, Bin Ren
, Jiajun Zhao
, Xiaodong Xu
, Yuxin Feng
, Wenyu Zhao
, Yongyuan Jiang^*

^*Corresponding author for this work

School of Physics

Harbin Institute of Technology
GOWell International LLC
University of California at Berkeley
Key Lab of Micro-Optics and Photonic Technology of Heilongjiang Province
Ministry of Industry and Information Technology
Collaborative Innovation Center of Extreme Optics

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

75 Scopus citations

Abstract

In this work, we numerically and experimentally demonstrate that all-angle negative refraction can be obtained with the acoustic gradient metasurface of subwavelength thickness. The coiling labyrinthine structures are utilized to build the desired gradient metasurface, and the apparent negative refraction occurring beyond the critical incident angle has been validated by simulations and experimental measurements, which agrees well with the theoretical predictions given by the revised generalized law of refraction while taking the contribution of the Bragg scattering into account. This work provides the solution to manipulate the acoustic waves and shows good promise in building functional diffractive acoustic elements.

Original language	English
Article number	221602
Journal	Applied Physics Letters
Volume	111
Issue number	22
DOIs	https://doi.org/10.1063/1.5004005
State	Published - 27 Nov 2017

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10.1063/1.5004005

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title = "Experimental realization of all-angle negative refraction in acoustic gradient metasurface",

abstract = "In this work, we numerically and experimentally demonstrate that all-angle negative refraction can be obtained with the acoustic gradient metasurface of subwavelength thickness. The coiling labyrinthine structures are utilized to build the desired gradient metasurface, and the apparent negative refraction occurring beyond the critical incident angle has been validated by simulations and experimental measurements, which agrees well with the theoretical predictions given by the revised generalized law of refraction while taking the contribution of the Bragg scattering into account. This work provides the solution to manipulate the acoustic waves and shows good promise in building functional diffractive acoustic elements.",

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AU - Liu, Bingyi

AU - Ren, Bin

AU - Zhao, Jiajun

AU - Xu, Xiaodong

AU - Feng, Yuxin

AU - Zhao, Wenyu

AU - Jiang, Yongyuan

PY - 2017/11/27

Y1 - 2017/11/27

N2 - In this work, we numerically and experimentally demonstrate that all-angle negative refraction can be obtained with the acoustic gradient metasurface of subwavelength thickness. The coiling labyrinthine structures are utilized to build the desired gradient metasurface, and the apparent negative refraction occurring beyond the critical incident angle has been validated by simulations and experimental measurements, which agrees well with the theoretical predictions given by the revised generalized law of refraction while taking the contribution of the Bragg scattering into account. This work provides the solution to manipulate the acoustic waves and shows good promise in building functional diffractive acoustic elements.

AB - In this work, we numerically and experimentally demonstrate that all-angle negative refraction can be obtained with the acoustic gradient metasurface of subwavelength thickness. The coiling labyrinthine structures are utilized to build the desired gradient metasurface, and the apparent negative refraction occurring beyond the critical incident angle has been validated by simulations and experimental measurements, which agrees well with the theoretical predictions given by the revised generalized law of refraction while taking the contribution of the Bragg scattering into account. This work provides the solution to manipulate the acoustic waves and shows good promise in building functional diffractive acoustic elements.

UR - https://www.scopus.com/pages/publications/85037105100

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DO - 10.1063/1.5004005

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SN - 0003-6951

VL - 111

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 22

M1 - 221602

ER -

Experimental realization of all-angle negative refraction in acoustic gradient metasurface

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