Terahertz spoof surface plasmon sensing based on dielectric metagrating coupling

Terahertz spoof surface plasmon sensing based on dielectric metagrating coupling

We propose a terahertz surface plasmon resonance sensor based on dielectric metagrating coupling to the spoof surface plasmon (SSP) mode on periodically grooved metal films. The well-designed silicon metagrating converts the normal incident to the necessary angle in the dielectric substrate exciting...

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Main Authors: Xiangjun Li, Luoyang Wang, Gang Cheng, Xiaomei Hou, Dexian Yan, Guohua Qiu, Shihui Guo, Weidong Zhou, Jining Li
Format: Article
Language:English
Published: AIP Publishing LLC 2021-05-01
Series:APL Materials
Online Access:http://dx.doi.org/10.1063/5.0048491
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spelling doaj-997b3a692d024a468329392c2e3a06642021-06-01T18:30:19ZengAIP Publishing LLCAPL Materials2166-532X2021-05-0195051118051118-610.1063/5.0048491Terahertz spoof surface plasmon sensing based on dielectric metagrating couplingXiangjun Li0Luoyang Wang1Gang Cheng2Xiaomei Hou3Dexian Yan4Guohua Qiu5Shihui Guo6Weidong Zhou7Jining Li8Key Laboratory of Electromagnetic Wave Information Technology and Metrology of Zhejiang Province, College of Information Engineering, China Jiliang University, Hangzhou 310018, Zhejiang, ChinaKey Laboratory of Electromagnetic Wave Information Technology and Metrology of Zhejiang Province, College of Information Engineering, China Jiliang University, Hangzhou 310018, Zhejiang, ChinaKey Laboratory of Electromagnetic Wave Information Technology and Metrology of Zhejiang Province, College of Information Engineering, China Jiliang University, Hangzhou 310018, Zhejiang, ChinaKey Laboratory of Electromagnetic Wave Information Technology and Metrology of Zhejiang Province, College of Information Engineering, China Jiliang University, Hangzhou 310018, Zhejiang, ChinaKey Laboratory of Electromagnetic Wave Information Technology and Metrology of Zhejiang Province, College of Information Engineering, China Jiliang University, Hangzhou 310018, Zhejiang, ChinaKey Laboratory of Electromagnetic Wave Information Technology and Metrology of Zhejiang Province, College of Information Engineering, China Jiliang University, Hangzhou 310018, Zhejiang, ChinaZhejiang Zhong Huan Detection CO., LTD, Wenzhou 325000, Zhejiang, ChinaThe Institute of Animal Husbandry and Veterinary Science, Zhejiang Academy of Agricultural Sciences, Hangzhou 310021, Zhejiang, ChinaCollege of Precision Instrument and Optoelectronic Engineering, Tianjin University, Tianjin 300072, ChinaWe propose a terahertz surface plasmon resonance sensor based on dielectric metagrating coupling to the spoof surface plasmon (SSP) mode on periodically grooved metal films. The well-designed silicon metagrating converts the normal incident to the necessary angle in the dielectric substrate exciting SSP with the transmission coupling between couplers and SSP metasurfaces. Using an all-dielectric metagrating as an external coupler, the tightly confined SSP mode can be excited within a small resonant cavity, causing the strong light–matter interaction. The proposed SSP dielectric meta-couplers will pave new routes for ultra-thin and compact sensing devices. The dielectric substrate thickness, the air gap distance between the substrate and the metal groove array, and metal groove gaps have remarkable influences on the characteristics of SSP sensing. The SSP sensing by metagrating coupling with the resonance frequency around 0.404 THz provides a high sensitivity of up to 335 GHz/RIU and a detection limit less than 0.0001 RIU with a frequency resolution of 33.5 MHz. Dielectric metagrating coupling SSP provides enormous potential for constructing ultra-sensitive and compact SSP sensors in the terahertz frequency region.http://dx.doi.org/10.1063/5.0048491
collection DOAJ
language English
format Article
sources DOAJ
author Xiangjun Li
Luoyang Wang
Gang Cheng
Xiaomei Hou
Dexian Yan
Guohua Qiu
Shihui Guo
Weidong Zhou
Jining Li
spellingShingle Xiangjun Li
Luoyang Wang
Gang Cheng
Xiaomei Hou
Dexian Yan
Guohua Qiu
Shihui Guo
Weidong Zhou
Jining Li
Terahertz spoof surface plasmon sensing based on dielectric metagrating coupling
APL Materials
author_facet Xiangjun Li
Luoyang Wang
Gang Cheng
Xiaomei Hou
Dexian Yan
Guohua Qiu
Shihui Guo
Weidong Zhou
Jining Li
author_sort Xiangjun Li
title Terahertz spoof surface plasmon sensing based on dielectric metagrating coupling
title_short Terahertz spoof surface plasmon sensing based on dielectric metagrating coupling
title_full Terahertz spoof surface plasmon sensing based on dielectric metagrating coupling
title_fullStr Terahertz spoof surface plasmon sensing based on dielectric metagrating coupling
title_full_unstemmed Terahertz spoof surface plasmon sensing based on dielectric metagrating coupling
title_sort terahertz spoof surface plasmon sensing based on dielectric metagrating coupling
publisher AIP Publishing LLC
series APL Materials
issn 2166-532X
publishDate 2021-05-01
description We propose a terahertz surface plasmon resonance sensor based on dielectric metagrating coupling to the spoof surface plasmon (SSP) mode on periodically grooved metal films. The well-designed silicon metagrating converts the normal incident to the necessary angle in the dielectric substrate exciting SSP with the transmission coupling between couplers and SSP metasurfaces. Using an all-dielectric metagrating as an external coupler, the tightly confined SSP mode can be excited within a small resonant cavity, causing the strong light–matter interaction. The proposed SSP dielectric meta-couplers will pave new routes for ultra-thin and compact sensing devices. The dielectric substrate thickness, the air gap distance between the substrate and the metal groove array, and metal groove gaps have remarkable influences on the characteristics of SSP sensing. The SSP sensing by metagrating coupling with the resonance frequency around 0.404 THz provides a high sensitivity of up to 335 GHz/RIU and a detection limit less than 0.0001 RIU with a frequency resolution of 33.5 MHz. Dielectric metagrating coupling SSP provides enormous potential for constructing ultra-sensitive and compact SSP sensors in the terahertz frequency region.
url http://dx.doi.org/10.1063/5.0048491
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