Refractive index sensing based on a twisted nano-kirigami metasurface

Shuqi Qiao; Xiaochen Zhang; Qinghua Liang; Yang Wang; Chang Yin Ji; Xiaowei Li; Lan Jiang; Shuai Feng; Honglian Guo; Jiafang Li

doi:10.1364/PRJ.507863

Refractive index sensing based on a twisted nano-kirigami metasurface

Shuqi Qiao, Xiaochen Zhang, Qinghua Liang, Yang Wang, Chang Yin Ji, Xiaowei Li, Lan Jiang, Shuai Feng, Honglian Guo, Jiafang Li

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

Plasmonic sensing technology has attracted considerable attention for high sensitivity due to the ability to effectively localize and manipulate light. In this study, we demonstrate a refractive index (RI) sensing scheme based on open-loop twisted meta-molecule arrays using the versatile nano-kirigami principle. RI sensing has the features of a small footprint, flexible control, and simple preparation. By engineering the morphology of meta-molecules or the RI of the ambient medium, the chiral surface lattice resonances can be significantly enhanced, and the wavelength, intensity, and sign of circular dichroism (CD) can be flexibly tailored. Utilizing the relation between the wavelength of the CD peak and the RI of the superstrate, the RI sensor achieves a sensitivity of 1133 nm/RIU. Additionally, we analyze these chiroptical responses by performing electromagnetic multipolar decomposition and electric field distributions.

and provide new insights into the manipulation of chiral light–matter interactions.

源语言	英语
页（从-至）	218-225
页数	8
期刊	Photonics Research
卷	12
期	2
DOI	https://doi.org/10.1364/PRJ.507863
出版状态	已出版 - 2月 2024

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abstract = "Plasmonic sensing technology has attracted considerable attention for high sensitivity due to the ability to effectively localize and manipulate light. In this study, we demonstrate a refractive index (RI) sensing scheme based on open-loop twisted meta-molecule arrays using the versatile nano-kirigami principle. RI sensing has the features of a small footprint, flexible control, and simple preparation. By engineering the morphology of meta-molecules or the RI of the ambient medium, the chiral surface lattice resonances can be significantly enhanced, and the wavelength, intensity, and sign of circular dichroism (CD) can be flexibly tailored. Utilizing the relation between the wavelength of the CD peak and the RI of the superstrate, the RI sensor achieves a sensitivity of 1133 nm/RIU. Additionally, we analyze these chiroptical responses by performing electromagnetic multipolar decomposition and electric field distributions.and provide new insights into the manipulation of chiral light–matter interactions.",

author = "Shuqi Qiao and Xiaochen Zhang and Qinghua Liang and Yang Wang and Ji, {Chang Yin} and Xiaowei Li and Lan Jiang and Shuai Feng and Honglian Guo and Jiafang Li",

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AU - Qiao, Shuqi

AU - Zhang, Xiaochen

AU - Liang, Qinghua

AU - Wang, Yang

AU - Ji, Chang Yin

AU - Li, Xiaowei

AU - Jiang, Lan

AU - Feng, Shuai

AU - Guo, Honglian

AU - Li, Jiafang

PY - 2024/2

Y1 - 2024/2

N2 - Plasmonic sensing technology has attracted considerable attention for high sensitivity due to the ability to effectively localize and manipulate light. In this study, we demonstrate a refractive index (RI) sensing scheme based on open-loop twisted meta-molecule arrays using the versatile nano-kirigami principle. RI sensing has the features of a small footprint, flexible control, and simple preparation. By engineering the morphology of meta-molecules or the RI of the ambient medium, the chiral surface lattice resonances can be significantly enhanced, and the wavelength, intensity, and sign of circular dichroism (CD) can be flexibly tailored. Utilizing the relation between the wavelength of the CD peak and the RI of the superstrate, the RI sensor achieves a sensitivity of 1133 nm/RIU. Additionally, we analyze these chiroptical responses by performing electromagnetic multipolar decomposition and electric field distributions.and provide new insights into the manipulation of chiral light–matter interactions.

AB - Plasmonic sensing technology has attracted considerable attention for high sensitivity due to the ability to effectively localize and manipulate light. In this study, we demonstrate a refractive index (RI) sensing scheme based on open-loop twisted meta-molecule arrays using the versatile nano-kirigami principle. RI sensing has the features of a small footprint, flexible control, and simple preparation. By engineering the morphology of meta-molecules or the RI of the ambient medium, the chiral surface lattice resonances can be significantly enhanced, and the wavelength, intensity, and sign of circular dichroism (CD) can be flexibly tailored. Utilizing the relation between the wavelength of the CD peak and the RI of the superstrate, the RI sensor achieves a sensitivity of 1133 nm/RIU. Additionally, we analyze these chiroptical responses by performing electromagnetic multipolar decomposition and electric field distributions.and provide new insights into the manipulation of chiral light–matter interactions.

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Refractive index sensing based on a twisted nano-kirigami metasurface

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