Zhou Yong Jin, Yang Bao Jia
Appl Opt. 2015 May 10;54(14):4529-33. doi: 10.1364/AO.54.004529.
Although subwavelength planar terahertz (THz) plasmonic devices can be implemented based on planar spoof surface plasmons (SPs), they still suffer from a little high propagation loss. Here the dispersion and propagation characteristics of the spoof plasmonic waveguide composed of double metal strips corrugated with dumbbell shaped grooves have been investigated. It has been found that much lower propagation loss and longer propagation length can be achieved based on the waveguide compared with the conventional spoof plasmonic waveguide with rectangular grooves. Moreover, the waveguide can implement a decrease in size of about 22%. An ultra-wideband THz plasmonic filter for planar circuits has been demonstrated based on the proposed waveguide. The experimental verification at the microwave frequency has been conducted by scaling up the geometry size of the filter.
尽管基于平面类表面等离子体激元(SPs)可以实现亚波长平面太赫兹(THz)等离子体激元器件,但它们仍然存在一定的高传播损耗。在此,对由带有哑铃形凹槽的双金属条波纹构成的类表面等离子体激元波导的色散和传播特性进行了研究。已经发现,与具有矩形凹槽的传统类表面等离子体激元波导相比,基于该波导可以实现更低的传播损耗和更长的传播长度。此外,该波导可以实现尺寸减小约22%。基于所提出的波导展示了一种用于平面电路的超宽带太赫兹等离子体激元滤波器。通过按比例放大滤波器的几何尺寸,在微波频率下进行了实验验证。