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The light transfer characteristics of one-dimensional photonic crystal with single and double-barrier quantum well are studied by transfer matrix method. The results show that when the refractive index of the barrier layer is high, the transmission peaks in single-barrier quantum well of photonic crystal will be narrower and the inner localized field will be stronger, that the peak in the double-barrier is narrower than the one in the single-barrier, and also the inner localized field is stronger in the double-barrier, that with the number of period layer in the photonic crystal increasing, the inner localized field in the double-barrier well is enhanced, furthermore, the bigger the refractive index ratio between barrier and dielectric layers of well, the stronger the inner localized field in the photonic crystal quantum well is. In addition, when the periodicity of the barrier layer in the photonic crystal with a thicker refractive index increases, the inner localized field will strengthen faster, and accordingly, the transmittance of the transmission peak will decrease more quickly. Both of the strengthening and decreasing will work at the top speed when all periods in different barriers increase at the same time. While the period number of the photonic crystal in well layers increases, the inner localized fields in both single and double-barrier will increase, but their transmittances of the transmission peak will keep the same. The characteristics above can provide guidance for designing new high-quality quantum optical devices.
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Keywords:
- photonic crystal /
- double barrier /
- quantum well /
- propagation characteristics
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[1] Yablonovitch E 1987 Phys. Rev. Lett. 58 2059
[2] John S 1987 Phys. Rev. Lett. 58 2486
[3] Su A 2011 Infrar. Laser. Eng. 40 1101 (in Chinese)[苏 安 2011 红外与激光工程 40 1101]
[4] Liu Q H, Hu D S, Yin X G, Wang Y Q 2011 Acta Phys. Sin. 60 094101 (in Chinese) [刘其海, 胡冬生, 尹小刚, 王彦庆 2011 物理学报 60 094101]
[5] Su A, Zhang N 2010 Chin. J . Lumin. 31 439 (in Chinese) [苏 安, 张 宁 2010 发光学报 31 439]
[6] Zhang Z R, Long Z W, Yuan Y Q, Diao X F 2010 Acta Phys. Sin. 59 587 (in Chinese) [张正仁, 隆正文, 袁玉群, 刁心峰 2010 物理学报 59 587]
[7] Chen X F, Jiang M P, Shen X M, Jin Y, Huang Z Y 2008 Acta Phys. Sin. 57 5709 (in Chinese) [陈宪锋, 江美萍, 沈小明, 金 铱, 黄正逸 2008 物理学报 57 5709]
[8] Qiao F, Zhang C, Wan J, Zi J 2000 Appl. Phys. Lett. 77 3698
[9] Fei H M, Zhou F, Yang Y B, Liang J Q 2011 Acta Phys. Sin. 60 074225 (in Chinese) [费宏明, 周 飞, 杨毅彪, 梁九卿 2011 物理学报 60 074225]
[10] Su A, Liang Y J 2011 1st International Conference on High Performance Structures and Materials Engineering Beijing China, May 5-6, 2011 p1696
[11] Bian T T, Zhang Y 2009 Optik. 120 736
[12] Xu C, Xu X C, Han D Z, Liu X H, Liu C P, Wu C J 2007 Opt. Commun. 280 221
[13] Esaki L, Tsu R 1970 IBMJ. Res. Dev. 14 61
[14] Mendez E E, von Klitzing K 1987 Physics and Application of Quantum Wells and Superlattices (New York: Plenum) pp79-98
[15] Jiang Y, Niu C, Lin D L 1999 Phys. Rev. B 59 9981
[16] Dong H X, Jiang H T, Yang C Q, Shi Y L 2007 Acta Opt. Sin. 27 2245 (in Chinese) [董海霞, 江海涛, 杨成全, 石云龙 2007 光学学报 27 2245]
[17] Su A, Gao Y J 2010 Acta Photo. Sin. 39 842 (in Chinese) [苏 安, 高英俊 2010 光子学报 39 842]
[18] Liu J, Sun J Q, Huang D X, Huang C Q, Wu M 2007 Acta Phys. Sin. 56 2281 (in Chinese) [刘 靖, 孙军强, 黄德修, 黄重庆, 吴 铭 2007 物理学报 56 2281]
[19] Wang X D, Yan K Z, Liu F 2003 Optoelectronics·Laser 14 1063 (in Chinese) [王旭东, 闫珂柱, 刘 芳 2003 光电子·激光 14 1063]
[20] Fang S F, Li J S, Su S, Zhang H Z 2009 J. Jilin Univ. (Science Edition) 47 98 (in Chinese) [房淑芬, 李集思, 苏 适, 张汉壮 2009 吉林大学学报 (理学版) 47 98]
[21] Gong Y L, Xu Z Y, Zhang R J 2004 J. Tongji Univ. (Science Edition) 32 920 (in Chinese) [龚益玲, 许震宇, 张若京 2004 同济大学学报 (自然科学版) 32 920]
[22] Wang Y L, Gao Y J, Wang N 2007 Guangxi Sci. 14 56 (in Chinese) [王玉玲, 高英俊, 王 娜 2007 广西科学 14 56]
[23] Gao Y J, Wang Y L, Huang C G, Chen H B, Wang N 2007 Phys. Scr. T129 349
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