A Study of Properties of the Photonic Band Gap of Unmagnetized Plasma Photonic Crystal

Liu S; Zhong SY; Liu SQ

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A Study of Properties of the Photonic Band Gap of Unmagnetized Plasma Photonic Crystal

机译：未磁化等离子体光子晶体的光子带隙特性研究

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In this study, the propagation of electromagnetic waves in one-dimensional plasma photonic crystals (PPCs), namely, superlattice structures consisting alternately of a homogeneous unmagnetized plasma and dielectric material, is simulated numerically using the finite-difference time-domain (FDTD) algorithm. A perfectly matched layer (PML) absorbing technique is used in this simulation. The reflection and transmission coefficients of electromagnetic (EM) waves through PPCs are calculated. The characteristics of the photonic band gap (PBG) are discussed in terms of plasma density, dielectric constant ratios, number of periods, and introduced layer defect. These may provide some useful information for designing plasma photonic crystal devices.

机译：在这项研究中，使用有限差分时域（FDTD）算法对一维等离子体光子晶体（PPC）中的电磁波传播进行了数值模拟，即由均质的未磁化等离子体和介电材料交替组成的超晶格结构。。在此模拟中使用了完美匹配层（PML）吸收技术。计算通过PPC的电磁波的反射和传输系数。根据等离子密度，介电常数比，周期数和引入的层缺陷讨论了光子带隙（PBG）的特性。这些可以为设计等离子体光子晶体器件提供一些有用的信息。

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来源
《Plasma Science & Technology》 |2009年第1期|共4页
作者
Liu S; Zhong SY; Liu SQ;
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正文语种 eng
中图分类物理学;
关键词
plasma photonic crystal; finite-difference time-domain method; photonic; band gap; reflection and transmission coefficients;

机译：等离子体光子晶体时域有限差分法光子带隙反射和透射系数;

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1. A Study of Properties of the Photonic Band Gap of Unmagnetized Plasma Photonic Crystal [J] . Liu S, Zhong SY, Liu SQ Plasma Science & Technology . 2009,第1期

机译：未磁化等离子体光子晶体的光子带隙特性研究
2. A Study of Properties of the Photonic Band Gap of Unmagnetized Plasma Photonic Crystal [J] . 刘崧, 钟双英, 刘三秋等离子体科学和技术：英文版 . 2009,第001期

机译：未磁化等离子体光子晶体的光子带隙特性研究
3. The characteristics of photonic band gaps for three-dimensional unmagnetized dielectric plasma photonic crystals with simple-cubic lattice [J] . Hai-Feng Zhang, Shao-Bin Liu, Xiang-Kun Kong, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2013,第Null期

机译：具有简单立方晶格的三维非磁化电介质等离子体光子晶体的光子带隙特性
4. Fundamental Comparative Study on Band-Gap Properties of 1-D Conventional Photonic Crystal and 1-D Function Photonic Crystal [C] . Yungao Cai, Yinghong Dong International Conference on Advanced Materials, Mechanics and Structural Engineering . 2019

机译：1-D常规光子晶体和1-D函数光子晶体带间隙性能的基本比较研究
5. Computation of photonic band structure and transmission spectra of two-dimensional photonic bandgap crystals. [D] . Qiu, Yang. 1998

机译：二维光子带隙晶体的光子能带结构和透射光谱的计算。
6. Titania Photonic Crystals with Precise Photonic Band Gap Position via Anodizing with Voltage versus Optical Path Length Modulation [O] . Georgy A. Ermolaev, Sergey E. Kushnir, Nina A. Sapoletova, 2019

机译：通过电压阳极氧化与光程长度调制具有精确光子带隙位置的二氧化钛光子晶体
7. Comment on “Experimental study of electromagnetic band gaps using plasmas as defaults in a metallic photonic crystal” [O] . Ratneshwar Jha 2012

机译：评论“使用等离子体的电磁带空隙的实验研究”金属光子晶体中的默认值“

A Study of Properties of the Photonic Band Gap of Unmagnetized Plasma Photonic Crystal

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