The high-Q THz stereo metasurface sensor based on double toroidal dipole with wide operating angle bandwidth

A highly sensitive terahertz stereo metasurface sensor, characterized by a high quality factor (Q-factor) and based on dual toroidal dipole (TD) resonance, has been proposed. The optimal structural parameters are ascertained by comparing the pertinent parameters of the stereo and planar structures i...

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Bibliographic Details
Published in:Journal of applied physics 2024-09, Vol.136 (10)
Main Authors: Chen, Cong, Gao, Peng, Dai, Yaowei, Cui, Hongzhong, Wang, Xinyan, Liu, Hai
Format: Article
Language:English
Subjects:
Angle of reflection
Dipoles
Electric fields
Excitation
Excitation spectra
Incidence angle
Magnetic resonance
Metasurfaces
Multipoles
Parameter sensitivity
Planar structures
Q factors
Resonance
Resonance scattering
Sensors
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Summary:A highly sensitive terahertz stereo metasurface sensor, characterized by a high quality factor (Q-factor) and based on dual toroidal dipole (TD) resonance, has been proposed. The optimal structural parameters are ascertained by comparing the pertinent parameters of the stereo and planar structures in relation to TD modal excitation. The effective excitation of the TD mode is demonstrated using the calculations of multipole scattered power, reflection spectra, surface currents, electric fields, and magnetic field distributions. It is crucial that the stereo metasurface exhibits simplicity and that the dual TD resonance can be readily excited through simple adjustments in the distance and height of the intermediate gap. It also demonstrates exceptionally high sensitivity and Q-factor, both of which are essential for sensing applications. Moreover, the proposed stereo terahertz metasurface sensor still shows excellent sensing performance in a wide range of incidence angles (±40°), which is of great significance for practical applications. In conclusion, this structure offers a novel design framework for high-performance terahertz sensors based on the TD mode.
ISSN:0021-8979
1089-7550
DOI:10.1063/5.0220850