偏分复用系统中偏振模色散补偿与偏分解复用一体化方案

林嘉川; 席丽霞; 张霞; 田凤; 梁晓晨; 张晓光

doi:10.7498/aps.62.114209

摘要

本文建立了偏分复用系统中偏振模色散与信号偏振态变化引起信道串扰的数学模型, 分析了偏振模色散对偏分复用信道射频功率的影响, 并提出了适用于偏分复用系统的光域偏振模色散补偿与偏分解复用同时进行的方案: 用信道的射频功率作为反馈控制信号, 监测链路中偏振模色散和偏振态变化引起的信道串扰的大小, 用改进的粒子群优化算法对偏振控制器进行自适应控制, 同时完成偏振模色散补偿与偏分解复用. 在112 Gb/s偏分复用-差分正交相移键控(PDM-DQPSK)传输系统中仿真验证了该方案的有效性. 结果表明该方案可以使112 Gb/s-PDM-DQPSK传输系统完成自适应偏分解复用的同时, 在1 dB的光信噪比代价下, 使系统对偏振模色散的容忍度提高20 ps.

关键词:

Abstract

A model of polarization mode dispersion (PMD) and state of polarization (SOP) variation induced coherent crosstalk is established in a polarization division multiplexing system. The properties of radio frequency power of one channel in the presence of PMD are investigated. A combined scheme of PMD compensation and polarization de-multiplexing in optical domain is proposed, which is based on monitoring of the feedback signal of RF power. A modified particle swarm optimization algorithm is also used for the adaptive polarization control. The validity of the PMD compensation and polarization de-multiplexing scheme proposed here is demonstrated in a 112Gb/s-PDM-DQPSK simulation system. Results show that the PMD tolerance of the transmission system is increased by 20 ps with 1 dB OSNR margin and the channel separation is accomplished as well.

Keywords:

polarization division multiplexing system /
crosstalk /
polarization mode dispersion /
polarization de-multiplexing

作者及机构信息

1.
信息光子学与光通信国家重点实验室, 北京邮电大学, 北京 100876;

2.
山东省光通信科学与技术省重点实验室, 聊城大学, 聊城 252000

基金项目: 国家自然科学基金(批准号: 61205065)、高等学校博士学科点专项科研基金(批准号: 20110005110014)、深圳市科技研发资金基础研究计划(批准号: JC201105191003A)和山东省自然基金项目(批准号: ZR2010FM043)资助的课题.

Authors and contacts

1.
State Key Laboratory of Information Photonics and Optical Communications, Beijing University of Posts and Telecommunications, Beijing 100876, China;

2.
The Key Laboratory of Optical Communications Science & Technology in Shandong Province, Liaocheng University, Liaocheng 252000, China

Funds: Project supported by the National Natural Science Foundation of China (Grant No. 61205065), the Specialized Research Fund for the Doctoral Program of Higher Education of China (Grant No. 20110005110014), the Basic Research Program of the Shenzhen Science and Technology R & D Fund (Grant No. JC201105191003A), and the Provincial Natural Foundation of Shandong, China (Grant No. ZR2010FM043).

参考文献

[1]	Xie C J, Raybon G 2012 European Conference and Exhibition on Optical Communication (ECOC) Amsterdam, Netherlands, September 16-20 Mo.2.C.4
[2]	Zhou X, Yu J J, Huang M F, Shao Y, Wang T, Lynn N, Peter M, Martin B, Peter B, David W.P, Robert L, Zhu B Y. 2011 J. Lightwave Technol. 29 571
[3]	Koch B, Noé R, Sandel D, Mirvoda V, Filsinger V, Puntsri K 2010 Optical Fiber Communication/National Fiber Optic Engineers Conference (OFC / NFOEC) San Diego, California, America, March 21-25, OThD4
[4]	Toshihiko H, Toshiyuki H, Guan P Y, Masataka N 2011 Optical Fiber Communication / National Fiber Optic Engineers Conference (OFC/NFOEC) Los Angeles, California, America, March 6-10 JThA44
[5]	Noé R, Hinz S, Sandel D, Wst F 2001 J. Lightwave Technol. 19 1469
[6]	Wang Z N, Xie C J, Ren X M 2009 Opt. Express 17 7993
[7]	Nelson L E, Nielsen N T, Kogelnik H 2001 Photon. Technol. Lett. 13 738
[8]	Johannisson P, Wymeersch H, Sjodin M, Tan A.S, Agrell Erik, Andrekson P, Karlsson M 2011 Opt. Commun. Netw 3 493
[9]	Yao X T, Yan L S, Zhang B, Willner A E, Jiang J F 2007 Opt. Express 15 7407
[10]	Sun Y, Xi L X, Zhang X G, Qin J X, Lin J C, Liang X C 2012 Acta Opt. Sin. 32 0206006 (in Chinese) [孙洋, 席丽霞, 张晓光, 秦江星, 林嘉川, 梁晓晨 2012 光学学报 32 0206006
[11]	Wang Z N, Xie C J 2009 Opt. Express 17 3183
[12]	Zhang X G, Weng X, Tian F, Zhang W B, Zhang Y A, Xi L X, Zhang G Y, Xiong Q J 2011 Optics Communications 284 4156
[13]	Wang M G, Li T J, Lou C Y, Jian S S, Huo L, Yao H J, Zeng L, Cui J, Diao C 2005 Acta Phys. Sin. 54 2774 (in Chinese) [王目光, 李唐军, 娄采云, 简水生, 霍力, 姚和军, 曾丽, 崔杰, 刁操 2005 54 2774]
[14]	Li T J, Wang M G, Cai L B, Zhao J, Jian S S 2006 Chin. Phys. Lett. 23 864
[15]	Huo L, Yang Y F, Pan S L, Luo C Y, Gao Y Z 2005 Chin. Phys. Lett. 22 3087
[16]	Shen Y F, Liu X M, Zhong S, Zong L, Veselka J, Kim P, Fenment J, Sardesai P H 2010 J. Lightwave Technol. 28 3282
[17]	Rao H 2008 Optical Fiber Communication/National Fiber Optic Engineers Conference (OFC/NFOEC) San Diego, California, America, Feb. 24-28, OThU1
[18]	Ito T, Fujita S, Gabory E, Fukuchi K 2009 Optical Fiber Communication / National Fiber Optic Engineers Conference (OFC/NFOEC) San Diego, California, America, March 22-26, OThR5
[19]	Zhang X G, Yu L, Zhou G T, Shen Y, Zheng Y, Li C Y, Liu Y M, Chen L, Yang B J 2003 Chin. Opt. Lett. 1 447

施引文献

[1]	Xie C J, Raybon G 2012 European Conference and Exhibition on Optical Communication (ECOC) Amsterdam, Netherlands, September 16-20 Mo.2.C.4
[2]	Zhou X, Yu J J, Huang M F, Shao Y, Wang T, Lynn N, Peter M, Martin B, Peter B, David W.P, Robert L, Zhu B Y. 2011 J. Lightwave Technol. 29 571
[3]	Koch B, Noé R, Sandel D, Mirvoda V, Filsinger V, Puntsri K 2010 Optical Fiber Communication/National Fiber Optic Engineers Conference (OFC / NFOEC) San Diego, California, America, March 21-25, OThD4
[4]	Toshihiko H, Toshiyuki H, Guan P Y, Masataka N 2011 Optical Fiber Communication / National Fiber Optic Engineers Conference (OFC/NFOEC) Los Angeles, California, America, March 6-10 JThA44
[5]	Noé R, Hinz S, Sandel D, Wst F 2001 J. Lightwave Technol. 19 1469
[6]	Wang Z N, Xie C J, Ren X M 2009 Opt. Express 17 7993
[7]	Nelson L E, Nielsen N T, Kogelnik H 2001 Photon. Technol. Lett. 13 738
[8]	Johannisson P, Wymeersch H, Sjodin M, Tan A.S, Agrell Erik, Andrekson P, Karlsson M 2011 Opt. Commun. Netw 3 493
[9]	Yao X T, Yan L S, Zhang B, Willner A E, Jiang J F 2007 Opt. Express 15 7407
[10]	Sun Y, Xi L X, Zhang X G, Qin J X, Lin J C, Liang X C 2012 Acta Opt. Sin. 32 0206006 (in Chinese) [孙洋, 席丽霞, 张晓光, 秦江星, 林嘉川, 梁晓晨 2012 光学学报 32 0206006
[11]	Wang Z N, Xie C J 2009 Opt. Express 17 3183
[12]	Zhang X G, Weng X, Tian F, Zhang W B, Zhang Y A, Xi L X, Zhang G Y, Xiong Q J 2011 Optics Communications 284 4156
[13]	Wang M G, Li T J, Lou C Y, Jian S S, Huo L, Yao H J, Zeng L, Cui J, Diao C 2005 Acta Phys. Sin. 54 2774 (in Chinese) [王目光, 李唐军, 娄采云, 简水生, 霍力, 姚和军, 曾丽, 崔杰, 刁操 2005 54 2774]
[14]	Li T J, Wang M G, Cai L B, Zhao J, Jian S S 2006 Chin. Phys. Lett. 23 864
[15]	Huo L, Yang Y F, Pan S L, Luo C Y, Gao Y Z 2005 Chin. Phys. Lett. 22 3087
[16]	Shen Y F, Liu X M, Zhong S, Zong L, Veselka J, Kim P, Fenment J, Sardesai P H 2010 J. Lightwave Technol. 28 3282
[17]	Rao H 2008 Optical Fiber Communication/National Fiber Optic Engineers Conference (OFC/NFOEC) San Diego, California, America, Feb. 24-28, OThU1
[18]	Ito T, Fujita S, Gabory E, Fukuchi K 2009 Optical Fiber Communication / National Fiber Optic Engineers Conference (OFC/NFOEC) San Diego, California, America, March 22-26, OThR5
[19]	Zhang X G, Yu L, Zhou G T, Shen Y, Zheng Y, Li C Y, Liu Y M, Chen L, Yang B J 2003 Chin. Opt. Lett. 1 447

[1]	赵富, 胡渝曜, 王鹏, 刘军. 偏振复用散射成像. , 2023, 72(15): 154201. doi: 10.7498/aps.72.20230551
[2]	王晓凯, 李建设, 李曙光, 郭英, 孟潇剑, 汪国瑞, 王璐瑶, 李增辉, 赵原源, 丁钰鑫. 一种基于三芯光子晶体光纤的宽带模分复用器的设计与研究. , 2022, 71(4): 044206. doi: 10.7498/aps.71.20211187
[3]	曹若琳, 彭清轩, 王金东, 陈勇杰, 黄云飞, 於亚飞, 魏正军, 张智明. 基于单光子计数反馈的低噪声光纤信道波分复用实时偏振补偿系统. , 2022, 71(13): 130306. doi: 10.7498/aps.71.20220120
[4]	王晓凯, 李建设, 李曙光, 郭英, 孟潇剑, 汪国瑞, 王璐瑶, 李增辉, 赵原源, 丁钰鑫. 一种基于三芯光子晶体光纤的宽带模分复用器的设计与研究. , 2021, (): . doi: 10.7498/aps.70.20211187
[5]	崔璐, 唐义, 朱庆炜, 骆加彬, 胡珊珊. 多光谱可见光通信信道串扰分析. , 2016, 65(9): 094208. doi: 10.7498/aps.65.094208
[6]	周雯, 陈鹤鸣. 基于磁光效应的二维三角晶格光子晶体模分复用器. , 2015, 64(6): 064210. doi: 10.7498/aps.64.064210
[7]	尹艳玲, 乔钢, 刘凇佐, 周锋. 基于基追踪去噪的水声正交频分复用稀疏信道估计. , 2015, 64(6): 064301. doi: 10.7498/aps.64.064301
[8]	王逸林, 马世龙, 梁国龙, 范展. 基于多径分集的啁啾扩频正交频分复用水声通信系统. , 2014, 63(4): 044302. doi: 10.7498/aps.63.044302
[9]	钟东洲, 邓涛, 郑国梁. 双信道偏振复用保密通信系统的完全混沌同步的操控性研究. , 2014, 63(7): 070504. doi: 10.7498/aps.63.070504
[10]	姚殊畅, 付松年, 张敏明, 唐明, 沈平, 刘德明. 基于少模光纤的模分复用系统多输入多输出均衡与解调. , 2013, 62(14): 144215. doi: 10.7498/aps.62.144215
[11]	王淑静, 马善钧. 由光分束器和起偏器混合产生的三模纠缠态表象. , 2011, 60(3): 030302. doi: 10.7498/aps.60.030302
[12]	杜建新. DWDM系统非简并四波混频串扰的分析. , 2009, 58(2): 1046-1052. doi: 10.7498/aps.58.1046
[13]	张建忠, 王安帮, 王云才. 混沌光通信与OC-48光纤通信的波分复用. , 2009, 58(6): 3793-3798. doi: 10.7498/aps.58.3793
[14]	李齐良, 孙丽丽, 陈均朗, 李庆山, 唐向宏, 钱胜, 林理彬. 周期色散管理波分复用系统中交叉相位调制边带不稳定性理论分析. , 2007, 56(2): 805-810. doi: 10.7498/aps.56.805
[15]	谭中伟, 郑凯, 刘艳, 傅永军, 陈勇, 曹继红, 宁提纲, 董小伟, 马丽娜, 简水生. 基于啁啾光纤光栅的色散补偿器在超长距离密集波分复用系统中的应用. , 2005, 54(11): 5218-5223. doi: 10.7498/aps.54.5218
[16]	曾　丽, 娄采云, 章恩耀. 偏振模色散模拟器的特性. , 2005, 54(3): 1241-1246. doi: 10.7498/aps.54.1241
[17]	王目光, 李唐军, 娄采云, 简水生, 霍力, 姚和军, 曾丽, 崔杰, 刁操. 4×10Gb/s OTDM系统中偏振模色散自适应补偿的研究. , 2005, 54(6): 2774-2778. doi: 10.7498/aps.54.2774
[18]	江建, 饶云江, 周昌学, 朱涛. 基于光放大的光纤Fizeau应变传感器频分复用系统. , 2004, 53(7): 2221-2225. doi: 10.7498/aps.53.2221
[19]	王目光, 李唐军, 简水生. 光纤偏振模色散对信号偏振度的影响. , 2003, 52(11): 2818-2824. doi: 10.7498/aps.52.2818
[20]	吴重庆, 付松年, 董晖, 刘海涛. 偏振模色散矢量的研究. , 2002, 51(11): 2542-2546. doi: 10.7498/aps.51.2542

计量

文章访问数: 6482
PDF下载量: 517
被引次数: 0

姓名
邮箱
手机号码
标题
留言内容
验证码

搜索

留言板