光谱学与光谱分析 |
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Influence of Polarization Maintaining Fibers and Polarizer on the Lightwave Spectrum |
ZHANG Chun-xi,LI Yan*,XU Hong-jie,FENG Li-shuang,LIANG Sheng |
School of Instrument Science and Opto-Electronics Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China |
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Abstract The parameters of polarization maintaining fibers and polarizer, and the splicing angles between them have important influence on the spectral characteristics of lightwave propagating in them. The transmission model of lightwave was established using Jones matrix. For the first time, the effect of degree of polarization, fiber lengths, splicing angles between fibers and between fiber and component on the output spectrum was discussed. It was indicated that the shape of output spectrum of the unpolarized lightwave will not change when the splicing angles between fibers and between fiber and component were not zero, while there were periodical functions added to the output spectrum of polarized of partially polarized lightwave. The result that when the angles were constants, the longer the fibers were, the smaller the periods of periodical functions, and that when the fiber lengths were constants, in a certain range the bigger the angles, the larger the amplitudes of periodical functions, was achieved. The conclusions were verified by experiments and they could supply theoretical guidance for the systems using polarization maintaining fibers and polarizer.
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Received: 2006-12-26
Accepted: 2007-03-28
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Corresponding Authors:
LI Yan
E-mail: lettlrom@aspe.buaa.edu.cn
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[1] LIAO Yan-biao(廖延彪). Fiber Optics(光纤光学). Beijing:Tsinghua University Press(北京:清华大学出版社), 2000. [2] DING Xiao-ping, WANG Wei, FU Lian-chun((丁小平, 王 薇, 付连春). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006, 26(6):1176. [3] Pavlath G A, Shaw H J. Applied Optics, 1982, 21(10):1752. [4] Burns W K, Chen C L, Moeller R P. Journal of Lightwave Technology, 1983, 1:98. [5] Burns W K, Moeller R P. Journal of Lightwave Technology, 1984, 2(4):430. [6] Burns W K. Journal of Lightwave Technology, 1986, 4(1):8. [7] MI Jian, ZHANG Chun-xi, LI Zheng, et al(米 剑, 张春熹, 李 铮, 等). Acta Optica Sinica(光学学报),2006, 26(8):1140. [8] MI Jian, ZHANG Chun-xi, LI Zheng, et al(米 剑, 张春熹, 李 铮, 等). Journal of Optoelectronics·Laser(光电子·激光), 2006, 17(9):1074. [9] YAN Da-wu(晏大武). Sichuan Communication Technology(四川通信技术), 2002, 32(2):69. [10] Mathis R F, May B, Lasko T. SPIE, Fiber Optic and Laser Sensors Ⅻ, 1994, 2292:283. [11] Born M, Wolf E(Editor). Principles of Optics(光学原理). Translated by YANG Jia-sun(杨葭荪,译). Beijing: Electronics Industry Press(北京:电子工业出版社), 2007. [12] Blake J N, Feth J R, Szafraniec B. U. S. Patent:5, 377, 283, 1994. [13] LIAO Yan-biao(廖延彪). Polarization Optics(偏振光学). Beijing:Science Press(北京:科学出版社), 2003.
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