| Tunable ultra-wideband terahertz filter based on three-dimensional arrays of H-shaped plasmonic crystalsTunable ultra-wideband terahertz filter based on three-dimensional arrays of H-shaped plasmonic crystalsTunable ultra-wideband terahertz filter based on three-dimensional arrays of H-shaped plasmonic crystals |
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| 作者姓名: | 袁偲 徐世林 姚建铨 赵晓蕾 曹小龙 吴亮 |
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| 作者单位: | Institute of Laser and Opto-electronics, Key Laboratory of Optoelectronic Information Science and Technology, College of Precision Instrument and Opto-electronics Engineering, Tianjin University, Tianjin 300072, China |
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| 基金项目: | Project supported by the National Natural Science Foundation of China (Grant Nos. 61271066, 61101058, and 61107086) and the Science and Technology Committee of Tianjin Province, China (Grant No. 11JCYBJC01100). |
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| 摘 要: | A face-to-face system of double-layer three-dimensional arrays of H-shaped plasmonic crystals is proposed, and its transmission and filtering properties are investigated in the terahertz regime. Simulation results show that our design has excellent filtering properties. It has an ultra-wide bandgap and passband with steep band-edges, and the transmittance of the passband and the forbidden band are very close to I and 0, respectively. As the distance between the two face-to-face plates increases, the resonance frequency exhibits a gradual blueshift from 0.88 THz to 1.30 THz. Therefore, we can dynamically control the bandwidths of bandgap and passband by adding a piezoelectric ceramic plate between the two crystal plates. Furthermore, the dispersion relations of modes and electric field distributions are presented to analyze the generation mechanisms of bandgaps and to explain the location of bandgaps and the frequency shift phenomenon. Due to the fact that our design can provide many resonant modes, the bandwidth of the bandgaps can be greatly broadened. This paper can serve as a valuable reference for the design of terahertz functional devices and three-dimensional terahertz metamaterials.
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| 关 键 词: | terahertz wideband filter plasmonic crystal metamaterials |
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