Simulation Studies on Semiconductor Photonic Crystal Using Photonic Bandgap Analysis: A Realization of Optical Mirror

C. Nayak; P. Sarkar; G. Palai

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Simulation Studies on Semiconductor Photonic Crystal Using Photonic Bandgap Analysis: A Realization of Optical Mirror

机译：基于光子带隙分析的半导体光子晶体仿真研究：光学镜的实现

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In this research, we attempt to envisage the mirror application using semiconductor photonic crystal with the help of photonic bandgap analysis. The photonic bandgap of photonic crystal structure is simulated using plane wave expansion method, where photonic crystal is realized by 2D triangular photonic crystal structure with gallium arsenide as background material having periodic air holes. Simulation result revealed that both lattice spacing of crystal structure and radius of air holes play vital role in realizing optical mirror. It is observed that photonic band gap of the above structure is found, if radius of air hole varies from 16 nm to 50 nm for lattice constant of 100 nm . It is also seen that photonic band gap is found if lattice spacing varies from 200 nm to 650 nm for radius of air hole of 100 nm.

机译：在这项研究中，我们尝试在光子带隙分析的帮助下设想使用半导体光子晶体的反射镜应用。使用平面波扩展方法模拟光子晶体结构的光子带隙，其中通过以砷化镓为背景材料且具有周期性气孔的二维三角形光子晶体结构来实现光子晶体。仿真结果表明，晶体结构的晶格间距和气孔半径在实现光学镜中都起着至关重要的作用。观察到，如果对于100nm的晶格常数，气孔的半径从16nm变化到50nm，则发现具有上述结构的光子带隙。还可以看到，对于100 nm的气孔半径，如果晶格间距在200 nm至650 nm之间变化，则会发现光子带隙。

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《The Open Electrical & Electronic Engineering Journal》 |2017年第1期|共6页
作者
C. Nayak; P. Sarkar; G. Palai;
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中图分类电气、电子工业;
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1. Theoretical approach to 3D photonic crystal structure for realization of optical mirror using bandgap analysis: A future application [J] . Palai G. Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2015,第24期

机译：带隙分析实现光学镜的3D光子晶体结构的理论方法：未来的应用
2. Thermally tunable and omnidirectional terahertz photonic bandgap in the one-dimensional photonic crystals containing semiconductor InSb [J] . Xiaoyu Dai, Yuanjiang Xiang, Shuangchun Wen, Journal of Applied Physics . 2011,第5期

机译：包含半导体InSb的一维光子晶体中的热可调和全向太赫兹光子带隙
3. Effects of structural fluctuations on the photonic bandgap during fabrication of a photonic crystal: a study of a photonic crystal with a finite number of periods [J] . Alongkarn Chutinan, Susumu Noda Journal of the Optical Society of America, B. Optical Physics . 1999,第9期

机译：结构波动对光子晶体制造过程中的光子带隙的影响：有限周期光子晶体的研究
4. TE-optical switch based on modification of photonic bandgaps in photonic crystals [C] . Guohua Wen, Mi Lin, Yogesh Natesan, 2014 IEEE workshop on advanced research and technology in industry applications . 2014

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5. Photonic crystal mirrors: Fundamental components for integrated photonic crystal optical MEMS. [D] . Kim, Sora. 2009

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6. Study of the omnidirectional photonic bandgap for dielectric mirrors based on porous silicon: effect of optical and physical thickness [O] . Augusto David Ariza-Flores, Luis Manuel Gaggero-Sager, Vivechana Agarwal 2012

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7. Optical tuning of photonic bandgaps in dye-doped nematic liquid crystal photonic crystal fibers [O] . Alkeskjold Thomas Tanggaard, Bjarklev Anders Overgaard, Hermann David Sparre, 2005

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Simulation Studies on Semiconductor Photonic Crystal Using Photonic Bandgap Analysis: A Realization of Optical Mirror

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