Photonic crystal quantum well with active impurity possessing high-efficient optical filtering and amplifying functions

Meng Chenju; Su An; Gao Yingjun

Volume 42 Issue 12

Jan. 2014

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Meng Chenju, Su An, Gao Yingjun. Photonic crystal quantum well with active impurity possessing high-efficient optical filtering and amplifying functions[J]. Infrared and Laser Engineering, 2013, 42(12): 3207-3212.

Citation:

Meng Chenju, Su An, Gao Yingjun. Photonic crystal quantum well with active impurity possessing high-efficient optical filtering and amplifying functions[J]. Infrared and Laser Engineering, 2013, 42(12): 3207-3212.

Photonic crystal quantum well with active impurity possessing high-efficient optical filtering and amplifying functions

1.
School of Physics and Mechanical & Electronic Engineering,Hechi University,Yizhou 546300,China;
2.
College of Physical Science and Engineering,Guangxi University,Nanning 530004,China

Received Date: 2013-04-10
Rev Recd Date: 2013-05-25
Publish Date: 2013-12-25

Abstract

The effect of active impurity on double barrier photonic quantum well filter was studied by transmission matrix method. The results show that when there was no active impurity in medium, the quality of double barrier quantum well filter increased with the periodicity of barrier layer increase, and the frequency of filtering channel shifted at same time. When there was active impurity in inner-barrier and well layer respectively, the resonant tunneling modes appeared high magnification, but the frequency of tunneling modes were constant. The quality of quantum well filtering increased quickly with the increase of value of imaginary part of dielectric, especially when there was active impurity in well layer, the quality reached 8.010104. These properties can achieve functions of high-quality optical filtering and optical signal amplification, providing positive guidance for design and application of photonic quantum well.
- photonic crystal quantum well,
- active impurity,
- filter quality,
- light amplification

References

[1]	Yablonovitch E. Inhibited spontaneous emission in solid-state physics and electronics[J]. Phys Rev Lett,1987,58(20): 2059-2061.
[2]	John S. Strong localization of photons in certain disordered dielectric superlattices[J]. Phys Rev Lett, 1987, 58(23): 2486-2489.
[3]	Meng Chengju, Su An. Heterostructures of one-dimensional photonic crystal for realizable muti resonant modes[J]. Optical Technique, 2013, 39(1): 92-96. (in Chinese) 蒙成举, 苏安.实现多共振模的一维异质结构光子晶体[J].光学技术, 2013, 39(1): 92-96.
[4]	Wu Rina, Li Yong, Yan Bin, et al. Effect of LC molecular orientation on the transmission spectrum of one-dimensional optics multilayer film photonic crystal [J]. Infrared and Laser Engineering, 2013, 42(3): 738-741. (in Chinese) 乌日娜, 李勇, 闫彬,等.液晶分子取向对一维光学多层膜光子晶体透射谱的影响[J]. 红外与激光工程, 2013, 42(3):738-741.
[5]	Meng Chengju, Su An. Absorb influence to the transmission spectrum of mirror symmetry one-dimensional photonic crystal[J]. Laser and Infrared, 2011, 40(11)：1248-1252. (in Chinese) 蒙成举, 苏安.吸收对镜像对称一维光子晶体透射谱的影响[J]. 激光与红外, 2011, 40(11): 1248-1252.
[6]	Qiao F, Zhang C, Wang J, et al. Photonic quantum-well structures: multiple channeled filtering phenomena[J]. Appl Phys Lett, 2000, 77(23): 3698-3702.
[7]	Su An. The Effect of lattice constants on transmission spectra of photonic crystal quantum well [J]. Infrared and Laser Engineering, 2013, 42(1): 200-206. (in Chinese) 苏安. 晶格常数对光子晶体量子阱透射谱的影响[J]. 红外与激光工程, 2013, 42(1): 200-206.
[8]	Su An, Gao Yingjun. One-dimensional photonic crystal quantum-well structure containing complex dielectric constant [J]. Acta Photonica Sinica, 2010, 39(5): 842-846. (in Chinese) 苏安, 高英俊. 含复介电常量一维光子晶体量子阱结构研究[J]. 光子学报, 2010, 39(5): 842-846.
[9]	Fei Hongming, Zhou Fei, Yang Yibiao, et al. Resonance tunneling through photonic double quantum well system [J]. Acta Physica Sinica, 2011, 60(7): 074225. (in Chinese) 费宏明, 周飞, 杨毅彪, 等. 光子晶体双量子阱的共振隧穿[J]. 物理学报, 2011, 60(7): 074225.
[10]	Su An, Gao Yingjun. Light propagation characteristics of one-dimensional photonic crystal with double-barrier quantum well[J]. Acta Photonica Sinica, 2012, 61(23)：234208. (in Chinese) 苏安, 高英俊.双重势垒一维光子晶体量子阱的光传输特性研[J]. 物理学报, 2012, 61(23): 234208.
[11]	Su An, Meng Chengju, Gao Yingjun. Filter with one-dimensional photonic crystal quantum well possessing high-quality filtering functions[J]. Chinese Journal of Lasers, 2013, 40(10): 1006001. (in chinese) 苏安, 蒙成举, 高英俊.实现高品质滤波功能的一维光子晶体量子阱滤波器[J].中国激光, 2013, 40(10): 1006001.
[12]	Su An, Meng Chengju, Gao Yingjun. Effect of structure period number on the transmission quality of photonic quantum well[J]. Laser & Optoelectronics Progress, 2013, 50(01)：012302. (in Chinese) 苏安, 蒙成举, 高英俊.结构周期数对光量子阱透射品质的影响研究[J]. 激光与光电子学进展, 2013, 50(01): 0123021.
[13]	Zhou Yaxun, Wang Jun, Chen Fang. Broadband amplifying characteristics of a bismuth-based erbium-doped fiber amplifier[J]. Optical Technical, 2008, 34(1): 41-44. (in Chinese) 周亚训, 王俊, 陈芬 .铋基掺铒光纤放大器宽带放大特性的理论研究[J]. 光学技术, 2008, 34(1): 41-44.
[14]	Shen Tinggen, Wu Bingjian, Fang Mingyang, et al. Study on the optical gain of photonic crystals with active impurity[J]. Journal of Synthetic Crystals, 2006, 35(2): 332-336. (in Chinese) 沈廷根, 吴炳坚, 方明阳, 等.光子晶体中掺杂激活杂质的光增益研究[J]. 人工晶体学报, 2006, 35(2): 332-336.
[15]	Hoffmann T, Noda T, Felch S, et al. Laser annealed junctions: process integration sequence optimization for advanced CMOS technologies[J]. IWJT, 2007: 137-140.
[16]	Su An. Photonic crystal quantum well with function of multi-channel photonic filtering and amplifying[J]. Infrared and Laser Engineering, 2013, 42(3): 727-732. (in Chinese) 苏安. 实现多通道光滤波与放大功能的光子晶体量子阱[J]. 红外与激光工程, 2013, 42(3): 727-732.
[17]	Li Zhenghua, Shen Tingen, Zheng Hao, et al. Study on the optical gain of photonic crystals fiber with active impurity[J]. Acta Sinica Quantum Optica, 2006, 12(2): 113-119. (in Chinese) 李正华, 沈廷根, 郑浩, 等.掺杂光子晶体光纤自发辐射与掺杂激活杂质的光增益透射谱研究[J].量子光学学报, 2006, 12(2): 113-119.
[18]	Su An. Transmission spectrum of one-dimensional photonic crystal for realizing high-performance optical transmission function[J]. Infrared and Laser Engineering, 2011, 40(6): 1101-1106. (in Chinese) 苏安. 实现高效光传输功能的一维光子晶体透射谱[J]. 红外与激光工程, 2011, 40(6): 1101-1106.
[19]	Su An, Gao Yingjun. One-dimensional photonic crystal quantum-well structure containing complex dielectric constant [J]. Acta Photonica Sinica, 2010, 39(5): 842-846. (in Chinese) 苏安, 高英俊.含复介电常量一维光子晶体量子阱结构研究[J]. 光子学报, 2010, 39(5): 842-846.

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

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Photonic crystal quantum well with active impurity possessing high-efficient optical filtering and amplifying functions

1. School of Physics and Mechanical & Electronic Engineering,Hechi University,Yizhou 546300,China;

2. College of Physical Science and Engineering,Guangxi University,Nanning 530004,China

Received Date: 2013-04-10

Rev Recd Date: 2013-05-25

Publish Date: 2013-12-25

Key words:

Abstract: The effect of active impurity on double barrier photonic quantum well filter was studied by transmission matrix method. The results show that when there was no active impurity in medium, the quality of double barrier quantum well filter increased with the periodicity of barrier layer increase, and the frequency of filtering channel shifted at same time. When there was active impurity in inner-barrier and well layer respectively, the resonant tunneling modes appeared high magnification, but the frequency of tunneling modes were constant. The quality of quantum well filtering increased quickly with the increase of value of imaginary part of dielectric, especially when there was active impurity in well layer, the quality reached 8.010104. These properties can achieve functions of high-quality optical filtering and optical signal amplification, providing positive guidance for design and application of photonic quantum well.

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Reference (19)

[1]	Yablonovitch E. Inhibited spontaneous emission in solid-state physics and electronics[J]. Phys Rev Lett,1987,58(20): 2059-2061.
[2]	John S. Strong localization of photons in certain disordered dielectric superlattices[J]. Phys Rev Lett, 1987, 58(23): 2486-2489.
[3]	Meng Chengju, Su An. Heterostructures of one-dimensional photonic crystal for realizable muti resonant modes[J]. Optical Technique, 2013, 39(1): 92-96. (in Chinese) 蒙成举, 苏安.实现多共振模的一维异质结构光子晶体[J].光学技术, 2013, 39(1): 92-96.
[4]	Wu Rina, Li Yong, Yan Bin, et al. Effect of LC molecular orientation on the transmission spectrum of one-dimensional optics multilayer film photonic crystal [J]. Infrared and Laser Engineering, 2013, 42(3): 738-741. (in Chinese) 乌日娜, 李勇, 闫彬,等.液晶分子取向对一维光学多层膜光子晶体透射谱的影响[J]. 红外与激光工程, 2013, 42(3):738-741.
[5]	Meng Chengju, Su An. Absorb influence to the transmission spectrum of mirror symmetry one-dimensional photonic crystal[J]. Laser and Infrared, 2011, 40(11)：1248-1252. (in Chinese) 蒙成举, 苏安.吸收对镜像对称一维光子晶体透射谱的影响[J]. 激光与红外, 2011, 40(11): 1248-1252.
[6]	Qiao F, Zhang C, Wang J, et al. Photonic quantum-well structures: multiple channeled filtering phenomena[J]. Appl Phys Lett, 2000, 77(23): 3698-3702.
[7]	Su An. The Effect of lattice constants on transmission spectra of photonic crystal quantum well [J]. Infrared and Laser Engineering, 2013, 42(1): 200-206. (in Chinese) 苏安. 晶格常数对光子晶体量子阱透射谱的影响[J]. 红外与激光工程, 2013, 42(1): 200-206.
[8]	Su An, Gao Yingjun. One-dimensional photonic crystal quantum-well structure containing complex dielectric constant [J]. Acta Photonica Sinica, 2010, 39(5): 842-846. (in Chinese) 苏安, 高英俊. 含复介电常量一维光子晶体量子阱结构研究[J]. 光子学报, 2010, 39(5): 842-846.
[9]	Fei Hongming, Zhou Fei, Yang Yibiao, et al. Resonance tunneling through photonic double quantum well system [J]. Acta Physica Sinica, 2011, 60(7): 074225. (in Chinese) 费宏明, 周飞, 杨毅彪, 等. 光子晶体双量子阱的共振隧穿[J]. 物理学报, 2011, 60(7): 074225.
[10]	Su An, Gao Yingjun. Light propagation characteristics of one-dimensional photonic crystal with double-barrier quantum well[J]. Acta Photonica Sinica, 2012, 61(23)：234208. (in Chinese) 苏安, 高英俊.双重势垒一维光子晶体量子阱的光传输特性研[J]. 物理学报, 2012, 61(23): 234208.
[11]	Su An, Meng Chengju, Gao Yingjun. Filter with one-dimensional photonic crystal quantum well possessing high-quality filtering functions[J]. Chinese Journal of Lasers, 2013, 40(10): 1006001. (in chinese) 苏安, 蒙成举, 高英俊.实现高品质滤波功能的一维光子晶体量子阱滤波器[J].中国激光, 2013, 40(10): 1006001.
[12]	Su An, Meng Chengju, Gao Yingjun. Effect of structure period number on the transmission quality of photonic quantum well[J]. Laser & Optoelectronics Progress, 2013, 50(01)：012302. (in Chinese) 苏安, 蒙成举, 高英俊.结构周期数对光量子阱透射品质的影响研究[J]. 激光与光电子学进展, 2013, 50(01): 0123021.
[13]	Zhou Yaxun, Wang Jun, Chen Fang. Broadband amplifying characteristics of a bismuth-based erbium-doped fiber amplifier[J]. Optical Technical, 2008, 34(1): 41-44. (in Chinese) 周亚训, 王俊, 陈芬 .铋基掺铒光纤放大器宽带放大特性的理论研究[J]. 光学技术, 2008, 34(1): 41-44.
[14]	Shen Tinggen, Wu Bingjian, Fang Mingyang, et al. Study on the optical gain of photonic crystals with active impurity[J]. Journal of Synthetic Crystals, 2006, 35(2): 332-336. (in Chinese) 沈廷根, 吴炳坚, 方明阳, 等.光子晶体中掺杂激活杂质的光增益研究[J]. 人工晶体学报, 2006, 35(2): 332-336.
[15]	Hoffmann T, Noda T, Felch S, et al. Laser annealed junctions: process integration sequence optimization for advanced CMOS technologies[J]. IWJT, 2007: 137-140.
[16]	Su An. Photonic crystal quantum well with function of multi-channel photonic filtering and amplifying[J]. Infrared and Laser Engineering, 2013, 42(3): 727-732. (in Chinese) 苏安. 实现多通道光滤波与放大功能的光子晶体量子阱[J]. 红外与激光工程, 2013, 42(3): 727-732.
[17]	Li Zhenghua, Shen Tingen, Zheng Hao, et al. Study on the optical gain of photonic crystals fiber with active impurity[J]. Acta Sinica Quantum Optica, 2006, 12(2): 113-119. (in Chinese) 李正华, 沈廷根, 郑浩, 等.掺杂光子晶体光纤自发辐射与掺杂激活杂质的光增益透射谱研究[J].量子光学学报, 2006, 12(2): 113-119.
[18]	Su An. Transmission spectrum of one-dimensional photonic crystal for realizing high-performance optical transmission function[J]. Infrared and Laser Engineering, 2011, 40(6): 1101-1106. (in Chinese) 苏安. 实现高效光传输功能的一维光子晶体透射谱[J]. 红外与激光工程, 2011, 40(6): 1101-1106.
[19]	Su An, Gao Yingjun. One-dimensional photonic crystal quantum-well structure containing complex dielectric constant [J]. Acta Photonica Sinica, 2010, 39(5): 842-846. (in Chinese) 苏安, 高英俊.含复介电常量一维光子晶体量子阱结构研究[J]. 光子学报, 2010, 39(5): 842-846.

Photonic crystal quantum well with active impurity possessing high-efficient optical filtering and amplifying functions

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