Helicity-delinked manipulations on surface waves and propagating waves by metasurfaces

Shiqing Li; Zhuo Wang; Shaohua Dong; Sixiong Yi; Fuxin Guan; Yizhen Chen; Huijie Guo; Qiong He; Lei Zhou; Shulin Sun

doi:10.1515/nanoph-2020-0200

Helicity-delinked manipulations on surface waves and propagating waves by metasurfaces

Shiqing Li
, Zhuo Wang
, Shaohua Dong
, Sixiong Yi
, Fuxin Guan
, Yizhen Chen
, Huijie Guo
, Qiong He
, Lei Zhou^*
, Shulin Sun^*

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Journal article › peer-review

61 Citations (Scopus)

Abstract

Although many approaches have been proposed to manipulate propagating waves (PWs) and surface waves (SWs), usually each operation needs a separate meta-device, being unfavorable for optical integrations. Here, we propose a scheme to design a single meta-device that can efficiently generate SWs and/or PWs with pre-designed wavefronts, under the excitations of circularly polarized (CP) PWs with different helicity. As a proof of concept, we design and fabricate a microwave meta-device and experimentally demonstrate that it can convert incident CP waves of opposite helicity to SWs possessing different wavefronts and traveling to opposite directions, both exhibiting very high efficiencies. We further generalize our scheme to design a meta-device and numerically demonstrate that it can either excite a SW beam with tailored wavefront or generate a far-field PW with pre-designed wavefront, as shined by CP waves with different helicity. Our work opens the door to achieving simultaneous controls on far- and near-field electromagnetic environments based on a single ultra-compact platform.

Original language	English
Pages (from-to)	3473-3481
Number of pages	9
Journal	Nanophotonics
Volume	9
Issue number	10
Early online date	4 Jul 2020
DOIs	https://doi.org/10.1515/nanoph-2020-0200
Publication status	Published - 1 Sept 2020

User-Defined Keywords

Far-field
Helicity
Metasurface
Near-field
Surface wave

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Cite this

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title = "Helicity-delinked manipulations on surface waves and propagating waves by metasurfaces",

abstract = "Although many approaches have been proposed to manipulate propagating waves (PWs) and surface waves (SWs), usually each operation needs a separate meta-device, being unfavorable for optical integrations. Here, we propose a scheme to design a single meta-device that can efficiently generate SWs and/or PWs with pre-designed wavefronts, under the excitations of circularly polarized (CP) PWs with different helicity. As a proof of concept, we design and fabricate a microwave meta-device and experimentally demonstrate that it can convert incident CP waves of opposite helicity to SWs possessing different wavefronts and traveling to opposite directions, both exhibiting very high efficiencies. We further generalize our scheme to design a meta-device and numerically demonstrate that it can either excite a SW beam with tailored wavefront or generate a far-field PW with pre-designed wavefront, as shined by CP waves with different helicity. Our work opens the door to achieving simultaneous controls on far- and near-field electromagnetic environments based on a single ultra-compact platform.",

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author = "Shiqing Li and Zhuo Wang and Shaohua Dong and Sixiong Yi and Fuxin Guan and Yizhen Chen and Huijie Guo and Qiong He and Lei Zhou and Shulin Sun",

note = "This work was supported by National Natural Science Foundation of China (Nos. 11874118, 11674068, 91850101, 11734007), and National Key Research and Development Program of China (2017YFA0303500, 2017YFA0700201), and Shanghai Science and Technology Committee (Grant No. 18ZR1403400), and Fudan University-CIOMP Joint Fund (FC2018-008, FC2018-006). Publisher Copyright: {\textcopyright} 2020 Shiqing Li et al., published by De Gruyter, Berlin/Boston 2020.",

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AU - Li, Shiqing

AU - Wang, Zhuo

AU - Dong, Shaohua

AU - Yi, Sixiong

AU - Guan, Fuxin

AU - Chen, Yizhen

AU - Guo, Huijie

AU - He, Qiong

AU - Zhou, Lei

AU - Sun, Shulin

N1 - This work was supported by National Natural Science Foundation of China (Nos. 11874118, 11674068, 91850101, 11734007), and National Key Research and Development Program of China (2017YFA0303500, 2017YFA0700201), and Shanghai Science and Technology Committee (Grant No. 18ZR1403400), and Fudan University-CIOMP Joint Fund (FC2018-008, FC2018-006). Publisher Copyright: © 2020 Shiqing Li et al., published by De Gruyter, Berlin/Boston 2020.

PY - 2020/9/1

Y1 - 2020/9/1

N2 - Although many approaches have been proposed to manipulate propagating waves (PWs) and surface waves (SWs), usually each operation needs a separate meta-device, being unfavorable for optical integrations. Here, we propose a scheme to design a single meta-device that can efficiently generate SWs and/or PWs with pre-designed wavefronts, under the excitations of circularly polarized (CP) PWs with different helicity. As a proof of concept, we design and fabricate a microwave meta-device and experimentally demonstrate that it can convert incident CP waves of opposite helicity to SWs possessing different wavefronts and traveling to opposite directions, both exhibiting very high efficiencies. We further generalize our scheme to design a meta-device and numerically demonstrate that it can either excite a SW beam with tailored wavefront or generate a far-field PW with pre-designed wavefront, as shined by CP waves with different helicity. Our work opens the door to achieving simultaneous controls on far- and near-field electromagnetic environments based on a single ultra-compact platform.

AB - Although many approaches have been proposed to manipulate propagating waves (PWs) and surface waves (SWs), usually each operation needs a separate meta-device, being unfavorable for optical integrations. Here, we propose a scheme to design a single meta-device that can efficiently generate SWs and/or PWs with pre-designed wavefronts, under the excitations of circularly polarized (CP) PWs with different helicity. As a proof of concept, we design and fabricate a microwave meta-device and experimentally demonstrate that it can convert incident CP waves of opposite helicity to SWs possessing different wavefronts and traveling to opposite directions, both exhibiting very high efficiencies. We further generalize our scheme to design a meta-device and numerically demonstrate that it can either excite a SW beam with tailored wavefront or generate a far-field PW with pre-designed wavefront, as shined by CP waves with different helicity. Our work opens the door to achieving simultaneous controls on far- and near-field electromagnetic environments based on a single ultra-compact platform.

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KW - Helicity

KW - Metasurface

KW - Near-field

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Helicity-delinked manipulations on surface waves and propagating waves by metasurfaces

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