Yan Hui scite author profile

A novel terahertz nanofilm sensor consisting of toroidal dipole bound states in the continuum (TD-BIC) inspired Fano resonance metasurface is proposed and investigated, which exhibits both the TD character and BIC feature. When the mirror symmetry of the unit cell was broken, the TD resonance was excited and demonstrated by anti-aligned magnetic dipoles and calculated scattering powers and the BIC mode was verified with the quality factor satisfying the inverse square law. Combined with the amplitude difference referencing technique, the TD-BIC inspired Fano resonance was utilized for nanofilm sensing at THz frequencies for the first time. Simulation results show that the amplitude difference can be easily observed by comparing the resonance frequency shift under difference thicknesses of germanium overlayer. Moreover, by coating with a 40 nm-thick analyte overlayer, the sensitivity of amplitude difference can achieve 0.32/RIU, which is a significant value and more suitable for sensing nanofilm analytes than the traditional frequency shift method. These advantages make our proposed structure have potential applications in sensing nanofilm analytes.

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Application of terahertz spectroscopy and molecular modeling in isomers investigation: Glucose and fructose

Zheng

Wang

Liu

et al. 2012

Optics Communications

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Numerical simulation of casing deformation during volume fracturing of horizontal shale gas wells

Guo

Liu

et al. 2019

Journal of Petroleum Science and Engineering

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Yan Hui

Simple and Efficient Method for the Oxidation of Sulfides to Sulfoxides: Application to the Preparation of Glycosyl Sulfoxides

Toroidal dipole bound states in the continuum metasurfaces for terahertz nanofilm sensing

Application of terahertz spectroscopy and molecular modeling in isomers investigation: Glucose and fructose

Numerical simulation of casing deformation during volume fracturing of horizontal shale gas wells

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