Enlarged omnidirectional photonic band gap in heterostructure of plasma and dielectric photonic crystals

Zhang H.-F.; Liu S.-B.; Kong X.-K.; Zhou L.; Li C.-Z.; Bian B.-R.

首页> 外文期刊>Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic >Enlarged omnidirectional photonic band gap in heterostructure of plasma and dielectric photonic crystals

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Enlarged omnidirectional photonic band gap in heterostructure of plasma and dielectric photonic crystals

机译：等离子体和电介质光子晶体异质结构中的全向光子带隙增大

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摘要

In this paper, we have shown theoretically that total omnidirectional photonic band gap (OBG) is enlarged considerably by using one-dimensional photonic crystal heterostructure composed of dielectric-dielectric and dielectric-plasma periodic structures. The OBG originates from a Bragg gap. The reflectance of considered structures are calculated by transfer matrix method (TMM). From the analysis it is found that the heterostructure of dielectric photonic crystals (DPCs) and plasma photonic crystals (PPCs) has very wide range of total OBG for both polarizations in comparison to the DPCs or PPCs, and the OBG can be notably enlarged by increasing the thickness and density of plasma layer.

机译：在本文中，我们从理论上表明，通过使用由介电介电和介电等离子体周期结构组成的一维光子晶体异质结构，可以大大提高总全向光子带隙（OBG）。 OBG来自布拉格间隙。考虑的结构的反射率通过传递矩阵法（TMM）计算。从分析中发现，与DPC或PPC相比，介电光子晶体（DPC）和等离子体光子晶体（PPC）的异质结构在两种偏振方式下的总OBG范围都非常大，并且通过增加OBG可以显着扩大等离子体层的厚度和密度。

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《Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic 》 |2013年第8期| 共6页
作者
Zhang H.-F.; Liu S.-B.; Kong X.-K.; Zhou L.; Li C.-Z.; Bian B.-R.;
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正文语种 eng
中图分类光学 ;
关键词
Omnidirectional photonic band gap; Photonic crystals; Plasma; Transfer matrix method;

机译：全向光子带隙;光子晶体;等离子体;转移矩阵法;

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1. Enlarged omnidirectional photonic band gap in heterostructure of plasma and dielectric photonic crystals [J] . Zhang H.-F., Liu S.-B., Kong X.-K., Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2013 ,第8期

机译：等离子体和电介质光子晶体异质结构中的全向光子带隙增大
2. Ultra-large omnidirectional photonic band gaps in one-dimensional ternary photonic crystals composed of plasma, dielectric and hyperbolic metamaterial [J] . Wu Feng, Lyu Keqiang, Hu Shi, Optical Materials . 2021 ,第Jana期

机译：超大型全向光子带间隙，一维三元光子晶体组成，由等离子体，电介质和双曲面超材料组成
3. Enhancement of omnidirectional photonic band gaps in one-dimensional dielectric plasma photonic crystals with a matching layer [J] . Zhang H.-F., Liu S.-B., Kong X.-K., Physics of plasmas . 2012 ,第2期

机译：具有匹配层的一维介电等离子体光子晶体中全向光子带隙的增强
4. Omnidirectional photonic band gaps enlarged by 1D plasma photonic crystals with quasi-periodic structures [C] . Xue Feng, Hai-Feng Zhang, Xiang-Kun Kong, Progress In Electromagnetic Research Symposium . 2016

机译：具有准周期结构的一维等离子体光子晶体扩大了全向光子带隙
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. Investigation of Photonic Band Gaps of One-Dimensional Heterostructure Magnetic Photonic Crystals [O] . N. Ansaria, M. M. Tehranchia 2015

机译：一维异质结磁性光子晶体的光子带隙研究

Enlarged omnidirectional photonic band gap in heterostructure of plasma and dielectric photonic crystals

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