基于双向二级喇曼抽运的偏振控制研究

袁明; 秦祖军; 杨凯

doi:10.7510/jgjs.issn.1001-3806.2016.06.018

基于双向二级喇曼抽运的偏振控制研究

1.
桂林电子科技大学电子工程与自动化学院, 桂林 541004

作者简介: 袁明(1991-),男,硕士研究生,现主要从事光纤通信和光纤传感的研究。.

通讯作者: 秦祖军, 674265337@qq.com ;

基金项目:
广西自然科学基金资助项目（2013GXNSFBA019269;2014GXNSFAA118389）;桂林电子科技大学广西自动检测技术与仪器重点实验室基金资助项目（YQ14107）
中图分类号: TN252

Rerearch of polarization control based on bi-propagating dual-order Raman pump

1.
School of Electronic Engineering and Automation, Guilin University of Electronic Technology, Guilin 541004, China

Corresponding author: QIN Zujun, 674265337@qq.com ;

CLC number: TN252

摘要: 为了发展具有实用价值的受激喇曼全光偏振控制方法，根据光纤中受激喇曼散射矢量理论和光纤随机双折射效应设计了基于双向二级喇曼抽运的全光偏振控制方案，构建了偏振吸引理论模型，采用严格数值迭代算法对该偏振控制方案进行了仿真分析，并完成了偏振控制方案最佳工作性能的优化设计。结果表明，当信号光波长为1550nm、功率为0.1mW、一级抽运光和二级抽运光的功率分别为1W和4W、其偏振态都为（0，1，0）、光纤长度为3km时，信号光偏振度可达0.85以上，且信号光强度波动低于35%。该方案有效降低了作用光波功率、减弱了信号光输出强度噪声，并提高了信号光输出偏振度。
- 光纤光学 /
- 受激喇曼散射 /
- 偏振相关增益 /
- 偏振吸引 /
- 二级放大
Abstract: In order to develop a practical all-optical polarization control tool, according to vector stimulated Raman scattering theory and random birefringence effect of optical fibers, a scheme of all-optical polarization control was proposed based on bi-propagating dual-order Raman pump. After the establishment of the theoretical model solved by rigorous numerical method, the optimal design of the polarization control scheme was completed. The results show that when signal wavelength is 1550nm, signal power is 0.1mW, pump light P1 and P2 power are 1W and 4W, and their polarization states are (0, 1, 0), fiber length is 3km, the degree of polarization of signal light could be more than 0.85, and the intensity fluctuations of signal light are less than 35%. The proposed method is effective to reduce the power of the interacting light wave, weaken the intensity noise of output optical signal and improve the degree of polarization of optical signals.
- fiber optics /
- stimulated Raman scattering /
- polarization-dependent gain /
- polarization attraction /
- dual-order amplification

[1]	ZHANG X G. Progress of polarization control technologies in high speed optical fiber communications[J]. Journal of Beijing University of Posts and Telecommunications, 2011, 34(1):1-10(in Chinese).
[2]	MORIN P, FATOME J, FINOT C, et al. All-optical nonlinear processing of both polarization state and intensity profile for 40Gbit/s regeneration applications.[J]. Optics Express, 2011, 19(18):17158-17166.
[3]	KOZLOV V V, NUN~O J, WABNITZ S. Theory of lossless polarization attraction in telecommunication fibers[J]. Journal of the Optical Society America, 2012, 29(1):100-108.
[4]	FATOME J, MORIN P, PITOIS S, et al. Light-by-light polarization control of 10Gb/s RZ and NRZ telecommunication signals[J]. IEEE Journal of Selected Topics in Quantum Electronics, 2012, 18(2):621-628.
[5]	ZHANG X G, FANG G Q, ZHAO X Y, et al. Experimental research of polarization stabilization in optical fiber communication systems[J]. Acta Photonica Sinica, 2009, 29(4):888-891(in Chinese).
[6]	MARTINELLI M, MARTELLI P, PIETRALUNGA S M. Polarization stabilization in optical communications systems[J]. Journal of Lightwave Technology, 2006, 24(11):4172-4183.
[7]	STILLER B, MORIN P, NGUYEN D M, et al. Demonstration of polarization pulling using a fiber-optic parametric amplifier.[J]. Optics Express, 2012, 20(24):27248.
[8]	URSINI L, SANTAGIUSTINA M, PALMIERI L. Raman nonlinear polarization pulling in the pump depleted regime in randomly birefringent fibers[J]. IEEE Photonics Technology Letters, 2011, 23(4):254-256.
[9]	MUGA N J, FERREIRA M F S, PINTO A N. Broadband polarization pulling using Raman amplification.[J]. Optics Express, 2011, 19(19):18707-18712.
[10]	MUGA N J, FERREIRA M F, PINTO A N. Polarization-dependent gain in Raman amplification based all-optical polarization control schemes[C]//Transparent Optical Networks (ICTON), 201214th International Conference on IEEE. New York, USA:IEEE, 2012:1-4.
[11]	GALTAROSSA A, PALMIERI L, SANTAGIUSTINA M, et al. Polarized backward Raman amplification in randomly birefringent fibers[J]. Journal of Lightwave Technology, 2006, 24(11):4055-4063.
[12]	CHIARELLO F, URSINI L, PALMIERI L, et al. Polarization attraction in counterpropagating fiber Raman amplifiers[J]. IEEE Photonics Technology Letters, 2011, 23(20):1457-1459.
[13]	PITOIS S, FATOME J, MILLOT G. Polarization attraction using counter-propagating waves in optical fiber at telecommunication wavelengths[J]. Optics Express, 2008, 16(9):6646-6651.
[14]	LIN Q, AGRAWAL G P. Vector theory of stimulated Raman scattering and its application to fiber-based Raman amplifiers[J]. Journal of the Optical Society America, 2003, 20(8):1616-1631.
[15]	KOZLOV V V, WABNITZ S. Suppression of relative intensity noise in fiber-optic Raman polarizers[J]. IEEE Photonics Technology Letters, 2011, 23(15):1088-1090.
[16]	KOZLOV V V, NUN~O J, ANIA-CASTAN~N J D, et al. Multichannel Raman polarizer with suppressed relative intensity noise for wavelength division multiplexing transmission lines[J]. Optics Letters, 2012, 37(11):2073-2075.

[1]	周维军 , 李泽仁 , 王荣波 . 前、后向多抽运光纤喇曼放大器的增益特性分析. 激光技术, 2009, 33(4): 406-408,432. doi: 10.3969/j.issn.1001-3806.2009.04.021
[2]	龙青云 , 吴庭万 . 光纤喇曼放大器的阈值探析. 激光技术, 2008, 32(1): 67-70.
[3]	王金华 , 许德胜 , 徐启阳 , 李再光 . YAG激光泵浦光纤产生受激喇曼散射. 激光技术, 1995, 19(5): 299-301.
[4]	杨先波 , 刘德明 , 黄德修 . 光纤喇曼激光器及多波长输出的分析. 激光技术, 2003, 27(5): 409-410,414.
[5]	张小光 , 李乙钢 , 冯鸣 , 吕可诚 . 一种级联喇曼光纤激光器数值模拟的新算法. 激光技术, 2010, 34(2): 250-252. doi: 10.3969/j.issn.1001-3806.2010.02.029
[6]	凌洁 , 李康 , 孔繁敏 , 刘艳 , 郭毅峰 . 多泵浦喇曼放大器简化模型设计及泵浦优化. 激光技术, 2004, 28(3): 333-336.
[7]	武斌 , 李康 , 孔繁敏 , 王岩 , 李谦 . 多抽运宽带喇曼放大器模拟算法的研究. 激光技术, 2005, 29(4): 410-413.
[8]	魏兴春 , 欧攀 , 张春熹 , 贾豫东 , 李大伟 . 单频单偏振窄线宽光纤激光器及其放大研究. 激光技术, 2010, 34(1): 5-7,29. doi: 10.3969/j.issn.1001-3806.2010.01.002
[9]	袁明辉 . 偏振模色散所致光纤链路传输损伤分析. 激光技术, 2009, 33(4): 397-399. doi: 10.3969/j.issn.1001-3806.2009.04.017
[10]	李东 , 张晓晖 , 黄俊斌 . 光纤干涉仪输入光偏振态反馈控制理论分析. 激光技术, 2006, 30(2): 126-129.
[11]	王戈 , 李康 , 孔繁敏 . 单模光纤中椭圆双折射下偏振模色散特性研究. 激光技术, 2006, 30(5): 465-468.
[12]	甄海龙 . 一种金填充高双折射光子晶体光纤偏振滤波器. 激光技术, 2016, 40(1): 1-4. doi: 10.7510/jgjs.issn.1001-3806.2016.01.001
[13]	刁利 , 王文龙 , 孔勇 , 韩华 . 温度对光纤Lyot消偏器输出偏振度的影响. 激光技术, 2015, 39(2): 220-223. doi: 10.7510/jgjs.issn.1001-3806.2015.02.016
[14]	陆丹 , 葛廷武 , 伍剑 , 徐坤 , 林金桐 . D形双包层大模场光纤激光偏振特性研究. 激光技术, 2009, 33(5): 509-511. doi: 10.3969/j.issn.1001-3806.2009.05.013
[15]	车继波 , 杨亚培 , 刘爽 , 官周国 , 薛辉 . Er3+/Yb3+共掺磷酸盐玻璃光纤放大器的增益综述. 激光技术, 2006, 30(1): 82-85.
[16]	徐庆超 , 刘冀鹏 , 陈建国 , 周鼎富 , 杨泽后 . 解析求解双包层光纤激光器中受激喇曼光的阈值. 激光技术, 2008, 32(1): 1-3,7.
[17]	巩稼民 , 任帆 , 薛孟乐 , 侯玉洁 , 李思平 , 蔡庆 , 丁哲 . 一种可调谐的宽带喇曼波长转换器. 激光技术, 2019, 43(2): 222-226. doi: 10.7510/jgjs.issn.1001-3806.2019.02.014
[18]	朱晓峥 , 楼祺洪 , 叶震寰 , 董景星 , 魏运荣 . 四倍频Nd：YAG激光在高压氢气中的喇曼频移研究. 激光技术, 2004, 28(2): 170-172,176.
[19]	苏富芳 , 吴福全 , 郝殿中 , 韩培高 , 史萌 . LD抽运被动调Q Nd:YAG/GdVO4内腔式喇曼激光器. 激光技术, 2011, 35(3): 398-402. doi: 10.3969/j.issn.1001-3806.2011.03.029
[20]	刘国华 , 刘德明 . 高功率光纤激光器喇曼效应的数值分析. 激光技术, 2007, 31(3): 298-300,321.

点击查看大图

计量

文章访问数: 4224
HTML全文浏览量: 1869
PDF下载量: 288
被引次数: 0

姓名
邮箱
手机号码
标题
留言内容
验证码

留言板

基于双向二级喇曼抽运的偏振控制研究

作者简介: 袁明(1991-),男,硕士研究生,现主要从事光纤通信和光纤传感的研究。.

通讯作者: 秦祖军, 674265337@qq.com ;

Rerearch of polarization control based on bi-propagating dual-order Raman pump

Corresponding author: QIN Zujun, 674265337@qq.com ;

计量

基于双向二级喇曼抽运的偏振控制研究

通讯作者: 秦祖军, 674265337@qq.com;

作者简介: 袁明(1991-),男,硕士研究生,现主要从事光纤通信和光纤传感的研究。

English Abstract

Rerearch of polarization control based on bi-propagating dual-order Raman pump

Corresponding author: QIN Zujun, 674265337@qq.com

全文HTML

目录

留言板

基于双向二级喇曼抽运的偏振控制研究

作者简介: 袁明(1991-),男,硕士研究生,现主要从事光纤通信和光纤传感的研究。.

通讯作者: 秦祖军, 674265337@qq.com ;

Rerearch of polarization control based on bi-propagating dual-order Raman pump

Corresponding author: QIN Zujun, 674265337@qq.com ;

计量

出版历程

基于双向二级喇曼抽运的偏振控制研究

通讯作者: 秦祖军, 674265337@qq.com;

作者简介: 袁明(1991-),男,硕士研究生,现主要从事光纤通信和光纤传感的研究。

English Abstract

Rerearch of polarization control based on bi-propagating dual-order Raman pump

Corresponding author: QIN Zujun, 674265337@qq.com

全文HTML

目录