Ultra wide sensing range plasmonic refractive index sensor based on nano-array with rhombus particles

We propose a two-dimensional metal grating with rhombus particles on a gold film structure for refractive index sensing due to its perfect absorption at near-infrared wavelength. Via two-dimensional metal grating coupling, the incident light energy is effectively transformed into the surface plasmon...

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Published inChinese physics B Vol. 29; no. 11; p. 114204
Main Authors Zhu, Jiankai, Wang, Xiangxian, Wu, Xiaoxiong, Su, Yingwen, Xu, Yueqi, Qi, Yunping, Zhang, Liping, Yang, Hua
Format Journal Article
LanguageEnglish
Published 01.10.2020
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Abstract We propose a two-dimensional metal grating with rhombus particles on a gold film structure for refractive index sensing due to its perfect absorption at near-infrared wavelength. Via two-dimensional metal grating coupling, the incident light energy is effectively transformed into the surface plasmons which propagate along the upper surface of the gold film and interact with the surrounding environment in a wide range. The plasmonic resonance mechanism of the structure is discussed in detail by theoretical analysis and finite-difference time-domain method. After optimizing the geometrical parameters, the designed structure shows the sensing performance with a refractive index sensitivity of 1006 nm/RIU. More importantly, this plasmonic refractive index sensor achieves an ultra wide refractive index sensing range from 1.0 to 2.4 with a stable sensing performance. The promising simulation results of the structure show that the sensor has a broad application prospect in the field of biology and chemistry.
AbstractList We propose a two-dimensional metal grating with rhombus particles on a gold film structure for refractive index sensing due to its perfect absorption at near-infrared wavelength. Via two-dimensional metal grating coupling, the incident light energy is effectively transformed into the surface plasmons which propagate along the upper surface of the gold film and interact with the surrounding environment in a wide range. The plasmonic resonance mechanism of the structure is discussed in detail by theoretical analysis and finite-difference time-domain method. After optimizing the geometrical parameters, the designed structure shows the sensing performance with a refractive index sensitivity of 1006 nm/RIU. More importantly, this plasmonic refractive index sensor achieves an ultra wide refractive index sensing range from 1.0 to 2.4 with a stable sensing performance. The promising simulation results of the structure show that the sensor has a broad application prospect in the field of biology and chemistry.
Author Qi, Yunping
Wang, Xiangxian
Su, Yingwen
Zhu, Jiankai
Yang, Hua
Xu, Yueqi
Zhang, Liping
Wu, Xiaoxiong
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crossref_primary_10_1016_j_rinp_2021_104396
crossref_primary_10_35848_1882_0786_aca316
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