为设计出性能优良的太赫兹滤波器, 设计了一种基于两个椭圆型闭合谐振环结构的极化敏感太赫兹超材料。利用 CST Microwave Studio 软件对其透射特性进行仿真。结果表明, 该超材料在x极化时, 有两个吸收峰和一个透射峰; 在y极化时, 也有三个谐振峰, 但其位置与X极化时不同。运用表面等离子体共振、磁谐振理论及等效电路模型对谐振峰产生的机理进行了分析。同时, 研究了椭圆双环的结构参数对谐振峰位置的影响规律, 外环的参数变化对低频的谐振峰影响较大, 内环的变化对高频的谐振峰影响较大。论文设计的结构对偏振敏感太赫兹滤波器的研究具有一定的参考价值。

For the design of high performance terahertz filter, a polarization sensitive terahertz metamaterial with two elliptical closed resonance rings structure is proposed. The transmission performance of the metamaterial is simulated by the CST microwave studio software. The results show that for the metamaterial x-polarized, there are two absorption peaks and one transmission peak. For y-polarized, there are also three resonance peaks, but the position of the three peaks are different from x-polarized. An analysis of resonance peaks is provided by means of surface plasma resonance, magnetic resonance theory and equivalent circuit model. At the same time, the influence law of two elliptical rings structure parameters on resonance peak position are researched. The parameters of the outer elliptical ring have a great influence on the resonance peaks at lower frequency, and the parameters of inner elliptical ring effect on the resonance peaks at higher frequency greatly. The structure designed in the paper promises a certain reference value in the study of polarization sensitive terahertz filters.