Omnidirectional photonic band gaps enlarged by 1D plasma photonic crystals with quasi-periodic structures

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

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An omnidirectional photonic band gap (OPBG) in one-dimensional (1D) plasma photonic crystals (plasma-PCs) with fractal quasi-periodic structures, which are consisting of plasma and two isotropic dielectrics is theoretically calculated by the transfer matrix method (TMM). Compared to the Bragg gaps, the OPBG is not dependent on the angle of incidence and both transverse electric (TE) and transverse magnetic (TM) modes. The calculated results demonstrate that the 1D plasma-PCs with fractal quasi-periodic not only can obtain a larger bandwidth of OPBG but also have a shorter length in realizing devices.

机译：理论上通过转移矩阵法（TMM）计算了具有分形准周期结构的一维（1D）等离子体分光周期晶体的全向光子带隙（OPBG）。与布拉格间隙相比，OPBG不依赖于入射角以及横向电（TE）模式和横向磁（TM）模式。计算结果表明，具有分形准周期的一维等离子体PCs不仅可以获得较大的OPBG带宽，而且在实现装置中具有较短的长度。

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来源
《Progress In Electromagnetic Research Symposium》|2016年|1923-1927|共5页
会议地点 Shanghai(CN)
作者
Xue Feng; Hai-Feng Zhang; Xiang-Kun Kong; Ling-Ling Wang;
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作者单位

Key Laboratory of Radar Imaging and Microwave Photonics (Nanjing Univ. Aeronaut. Astronaut.) Ministry of Education Nanjing University of Aeronautics and Astronautics 210016 China;

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关键词
Plasmas; Dielectrics; Bandwidth; Fractals; Photonic band gap;

机译：血浆;电介质；带宽;分形;光子带隙;

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专利

1. The theoretical analysis of omnidirectional photonic band gaps in the one-dimensional ternary plasma photonic crystals based on Pell quasi-periodic structure [J] . Feng Xue, Shao-Bin Liu, Hai-Feng Zhang, Optical and quantum electronics . 2017,第1期

机译：基于Pell准周期结构的一维三元等离子体光子晶体全向光子带隙的理论分析
2. 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
3. Omnidirectional photonic band gap enlarged by one-dimensional ternary unmagnetized plasma photonic crystals based on a new Fibonacci quasiperiodic structure [J] . Zhang H.-F., Liu S.-B., Kong X.-K., Physics of plasmas . 2012,第11期

机译：基于新的斐波那契准周期结构的一维三元未磁化等离子体光子晶体扩大了全向光子带隙
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：用准周期性结构的1D等离子体光子晶体放大的全向光子带隙
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. PROPERTIES OF OMNIDIRECTIONAL PHOTONIC BAND GAPS IN FIBONACCI QUASI-PERIODIC ONE- DIMENSIONAL SUPERCONDUCTOR PHOTONIC CRYS- TALS [O] . H. F. Zhang, S. B. Liu, X. K. Kong, 2014

机译：FIBONaCCI准周期一维超导光子晶体中全向光子带隙的特性

Omnidirectional photonic band gaps enlarged by 1D plasma photonic crystals with quasi-periodic structures

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