复介电常量双缺陷层的镜像对称光子晶体特性

陈海波; 高英俊; 胡素梅

doi:null

您当前的位置：

首页 >

文章列表页 >

复介电常量双缺陷层的镜像对称光子晶体特性

论文 | 更新时间：2020-08-12

- 复介电常量双缺陷层的镜像对称光子晶体特性
- Properties of Mirror Symmetrical Photonic Crystals of Dielectric Constant Defect Layer with Imaginary Part
- 发光学报 2008年29卷第2期页码：233-237
- 作者机构：
  
  1. 广西大学, 物理科学与工程技术学院,广西南宁,530004
  2. 茂名学院, 物理系,广东茂名,525000
- 作者简介：
- 基金信息：
  
  国家自然科学基金(50661001)();广西科学基金(桂科基0342004-1,桂科基0639004)();广西“十百千人才工程”(2001207)();广西研究生教
- DOI：
  中图分类号： O431;O437
- 收稿日期：2007-08-25，
  
  修回日期：2007-11-24，
  
  纸质出版日期：2008-03-20
- 稿件说明：
移动端阅览
陈海波, 高英俊, 胡素梅. 复介电常量双缺陷层的镜像对称光子晶体特性[J]. 发光学报, 2008,29(2): 233-237

CHEN Hai-bo, GAO Ying-jun, HU Su-mei. Properties of Mirror Symmetrical Photonic Crystals of Dielectric Constant Defect Layer with Imaginary Part[J]. Chinese Journal of Luminescence, 2008,29(2): 233-237
陈海波, 高英俊, 胡素梅. 复介电常量双缺陷层的镜像对称光子晶体特性[J]. 发光学报, 2008,29(2): 233-237 DOI：

CHEN Hai-bo, GAO Ying-jun, HU Su-mei. Properties of Mirror Symmetrical Photonic Crystals of Dielectric Constant Defect Layer with Imaginary Part[J]. Chinese Journal of Luminescence, 2008,29(2): 233-237 DOI：

摘要

利用传输矩阵法研究了两个复介电常量缺陷层镜像对称一维光子晶体的带隙结构和光传输特性。重点讨论了缺陷层的复介电常量的虚部为负值且光学厚度为λ

/4的情形时对传输特性的影响。研究发现:当在光子晶体的两端加入具有负虚部的复介电常量缺陷层后

多处出现了较强的透射峰增益。随着缺陷层复介电常量的虚部与实部比值的增加

各处透射峰增益变化规律不同。但中心波长处的缺陷膜的位置和高度不变。这为光子晶体同时实现多通道超窄带滤波器和不同放大倍数的光放大微器件的设计提供了理论基础。而在光子晶体的两端加入具有正虚部的复介电常量缺陷层后

各透射峰都出现了吸收现象

且随着其正虚部值

的增加

吸收越明显

这给光子晶体实现放大功能提供了理论指导。

Abstract

By using the optical tranfer matrix method

the band function and the optical transmission properties of mirror symmetrical photonic crystals of two dielectric constant defect layer with imaginary part are stu-died

especially discussing on the case of negation imaginary part and the optical thickness of the defect layer is λ

/4. The investigation results show that several large transmittance gains appear at the transmittance bands if the dielectric constant defects with negative imaginary part are added in the photonic crystals. With the increasing of the ratio of imaginary and real part of defect's dielectric constant

the transmittance gains will change with different rule

but the transmissivity of the defect film at middle wavelength is invariable.The conclusion might be used to multiple channel narrow band filter and multiple channel optical amplification device with different amplificatory multiple synchronously. However

all of the transmittance peaks are minished if the imaginary part of the defect layer's dielectric constant was positive

because the transmittance peaks are absorbed in this case. With the increasing of the imaginary

the transmittance is reducing. The conclusion leads to use photonic crystals for optical amplification device theoretically.

关键词

Keywords

references

Yablonovitch Eli.Inhibited spontaneous emission in solid-state physics and electronics[J].Phys.Rev.Lett.,1987,58(20):2059-2062.

John S.Strong localition of photons in certain disordered dielectric superlattices[J].Phys.Rev.Lett.,1987,58(23):2486-2489.

Abdurusul,Parhat.Electromagnetic waves propagation in periodic medium and two dimensional photonic band structure[J].Chin.J.Lumin.(发光学报),2003,24(2):125-129 (in Chinese).

Chen Ming,Ma Shaojie,Li Chunfei,et al.Eye-protection glasses against laser disservice based on the bandgap reflection of one-dimensional photonic crystal[J].Chin.J.Lumin.(发光学报),2004,25(3):325-328 (in Chinese).

Yuan Baoguo,Zheng Hao,Shen Tinggen.Properties of stimulated emission gain in the hexagonal air core PCF[J].Laser & Infrared (激光与红外),2007,37(5):468-473 (in Chinese).

Imada M,Noda S,Chutinan A,et al.Coherent two-dimensional lasing action in surface-emitting laser with triangular-lattice photonic crystal structure[J].Appl.Phys.Lett.,1999,75(2):316-318.

Meier M,Mekis A,Dodabalapur A,et al.Laser action from two-dimensional distributed feedback in photonic crystals[J].Appl.Phys.Lett.,1999,74(1):7-9.

Notomi M,Suzuki H,Tamamura T.Directional lasing oscillation of two-dimensional organic photonic crystal laser at several photonic bandgap[J].Appl.Phys.Lett.,2001,78(10):1325-1327.

Panter O,Leer K,Scherer A,et al.Two-dimensional photonic band-gap defect mode laser[J].Science,1999,284(5421):1819-1821.

Benisty H,Weisbuch C,Olivier S,et al.Low-loss photonic-crystal and monolithic InP integration:bands,bend,lasers,filters[J].SPIE,2004,5360:119-128.

Chow E,Liu S Y,Johnson S G,et al.Three-dimensional control of light in a two-dimensional photonic crystal slab[J].Nature,2000,407(6807):983-986.

Yanikm F,Fan S.All-optical transistor action with bistable switching in a photonic crystal cross-waveguide geometry[J].Opt.Lett.,2003,28(24):2506-2508.

Pan Y Z,Zhang J,Hu G J,et al.Photonic crystal fiber and laser[J].Laser Technology (激光技术),2004,28(1):48-51 (in Chinese).

Soon B Y,Haus J W,Scalora M,et al.One-dimensional photonic crystal optical limiter[J].Optics Express,2003,11(17):2007-2012

Du Guiqiang,Liu Nianhua.Optical transmission spectra of one-dimensional photonic crystals with a mirror symmetry[J].Acta Physica Sinica (物理学报),2004,53(4):1095-1098 (in Chinese).

Hu Ping,Tan Zhenxing,Liao Qinghua,et al.Normal coupled modes in a symmetric one-dimension photonic crystal[J].Chin.J.Lumin.(发光学报),2006,27(3):291-295 (in English).

Tang Bingshu,Yin Gongwei,Xu Jianliang,et al.Transmission characteristics of 2-D photonic crystals of square dielectric rods by the transfer matrix method[J].Chin.J.Lumin.(发光学报),2006,27(6):861-865 (in Chinese).

浏览量

108

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

高速光子晶体面发射激光器研究进展

可见光、远红外与激光兼容隐身光子晶体薄膜

Woodpile结构三维光子晶体中的四端口通道下载滤波器

含各向异性左手材料一维光子晶体微腔的Wannier-Stark态

稀土离子上转换发光中的局域电磁场调控