Author:
Wang Xiangxian,Zhu Jiankai,Xu Yueqi,Qi Yunping,Zhang Liping,Yang Hua,Yi Zao
Abstract
A novel complementary grating structure is proposed for plasmonic refractive index sensing due to its strong resonance at near-infrared wavelength. The reflection spectra and the electric field distributions are obtained via the finite-difference time-domain method. Numerical simulation results show that multiple surface plasmon resonance modes can be excited in this novel structure. Subsequently, one of the resonance modes shows appreciable potential in refractive index sensing due to its wide range of action with the environment of the analyte. After optimizing the grating geometric variables of the structure, the designed structure shows the stable sensing performance with a high refractive index sensitivity of 1642 nm per refractive index unit (nm/RIU) and the figure of merit of 409 RIU−1. The promising simulation results indicate that such a sensor has a broad application prospect in biochemistry.
Subject
General Physics and Astronomy
Cited by
60 articles.
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