3D Waveguides for Nano Photonic Application

Sangram Kishore, U. Bhanja, C. Mishra, G. Palai
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Abstract

Silicon and gallium arsenide (GaAs) based three dimensional photonic structure is realized here to envisage at Terahertz mirror device, which is purely belonged to the application of nano photonic devices. Further plane wave expansion technique pertaining to the mathematical formulation is disclosed in this research to evaluate the photonic bandgap of silicon and gallium arsenaide crystal structure. Aside this, lattice spacing and diameter of air holes of both the structure play key role to understand the above said application, which controls the reflection and transmission of signal . Finally it is revealed that with the proper combination of lattice spacing and diameter of air holes of the said 3D structure determines a range of Terahertz frequency. Finally, the outcome of the paper claims that the proposed structure can be a suitable candidate for nano photonic application.
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纳米光子应用的三维波导
本文实现了基于硅和砷化镓(GaAs)的三维光子结构,设想了太赫兹反射镜器件,这纯粹属于纳米光子器件的应用。本研究公开了与数学公式相关的进一步平面波展开技术,以评估硅和砷化镓晶体结构的光子带隙。除此之外,这两种结构的晶格间距和气孔直径是理解上述应用的关键,它们控制着信号的反射和传输。最后揭示了在晶格间距和气孔直径的适当组合下,所述三维结构确定了太赫兹频率范围。最后,本文的结果表明,所提出的结构可以作为纳米光子应用的合适候选者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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