Silver mirror for enhancing the magnetic plasmon resonance and sensing performance in plasmonic metasurface

We report a novel method for enhancing magnetic plasmon resonances (MPRs) and sensing performance of metasurface consisting of a 1D Ag nanogroove array by using an opaque Ag mirror. The Ag mirror can block the transmission channel of light, so the radiative damping of MPRs excited in Ag nanogrooves...

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Veröffentlicht in:Applied physics express 2022-10, Vol.15 (10), p.102003
Hauptverfasser: Chen, Jing, Zhang, Mingxi, Gu, Ping, Weng, Zhiyi, Yan, Zhendong, Gao, Fan, Tang, Chaojun, Yan, Bo, Zhu, Mingwei
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container_end_page
container_issue 10
container_start_page 102003
container_title Applied physics express
container_volume 15
creator Chen, Jing
Zhang, Mingxi
Gu, Ping
Weng, Zhiyi
Yan, Zhendong
Gao, Fan
Tang, Chaojun
Yan, Bo
Zhu, Mingwei
description We report a novel method for enhancing magnetic plasmon resonances (MPRs) and sensing performance of metasurface consisting of a 1D Ag nanogroove array by using an opaque Ag mirror. The Ag mirror can block the transmission channel of light, so the radiative damping of MPRs excited in Ag nanogrooves is strongly reduced, and therefore the linewidth of MPRs is noticeably decreased. Because of ultra-narrow bandwidth and great magnetic field enhancement at MPRs, the metasurface shows very high sensitivity ( S = 700 nm RIU −1 , S* = 70 RIU −1 ) and figure of merit (FOM = 100, FOM * = 628), which holds great potential in the label-free biomedical sensing.
doi_str_mv 10.35848/1882-0786/ac9178
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subjects magnetic plasmon resonance
optical sensing and sensors
plasmonic metasurface
silver mirror
title Silver mirror for enhancing the magnetic plasmon resonance and sensing performance in plasmonic metasurface
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