High Q Tunable THz plasmonic Metasurface based on InSb Particles
2023 48TH INTERNATIONAL CONFERENCE ON INFRARED, MILLIMETER, AND TERAHERTZ WAVES, IRMMW-THZ(2023)
摘要
We present a novel InSb-based metasurface design for THz plasmonic devices capable of realizing an ultra-narrow linewidth response, dynamically tunable via external stimulation. The optimized design support a SLR with an ultra-high Q factor of 2500 due to the constructive interaction of LSPRs of individual elements at the RA diffraction frequency. When a weak static magnetic field is applied, the metasurface gives rise to magneto-plasmonic modes due to Zeeman splitting effects, facilitating a multiband response. This tunable behavior makes this ultra-high Q InSb-based metasurface highly promising for various THz applications, including imaging, sensing, and lasing systems at the sub-wavelength scale.
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关键词
constructive interaction,external stimulation,high Q tunable THz plasmonic metasurface,InSb particles,InSb-based metasurface design,InSb/bin,localized surface plasmon resonance,magneto-plasmonic modes,multiband response,optimized design,plasmonic metasurface,RA diffraction frequency,THz applications,THz plasmonic devices,tunable behavior,ultrahigh Q factor,ultrahigh Q InSb-based metasurface,ultranarrow linewidth response,weak static magnetic field,Zeeman splitting effects
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