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高速光传输系统的带内非线性作用 被引量:2

Intra-channel Nonlinear Effects in High Speed Optical Transmission System
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摘要 分析了高速光传输系统中带内非线性作用的产生原因和影响因素,通过数值仿真和分析,得到了结论:在抑制带内非线性作用方面,相位调制优于幅度调制;色散后补偿优于色散预补偿,对于功率较大的情况尤为明显;对于一定的发射功率,脉冲占空比有一个最优值。 Intra-channel nonlinear effects impose a major limitation to system performance in high speed optical transmission. These effects, which are usually referred to intra-channel four-wave mixing (IFWM) and cross-phase modulation (IXPM), may cause amplitude and timing jitter and lead to serious transmission penalties. The paper discussed causes and several factors of intra-channel pulse interaction. Analysis and numerical simulation derive conclusions as follows: To suppress intra-channel nonlinear effects, phase modulation is superior to amplitude modulation, and post-compensation of dispersion is superior to pre-compensation, especially for large launched power. In addition, the duty cycle of pulse has an optimum value for a certain launched power.
作者 陈新 马晓红 张汉一 周炳琨
机构地区 清华大学电子工程系
出处 《光电子.激光》 EI CAS CSCD 北大核心 2004年第8期929-934,共6页 Journal of Optoelectronics·Laser
基金 国家自然科学基金资助项目(60277010)
关键词 光传输系统 后补偿 发射功率 色散 高速 幅度 占空比 非线性作用 最优值 相位调制 Crosstalk Four wave mixing Phase modulation Wavelength division multiplexing
分类号 TN929 [电子电信—通信与信息系统] O415.3 [理学—理论物理]
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参考文献6

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  • 2[2]FU Xiao-mei,DAI Ju-feng,YU Jin-long,et al.Characteristic of fiber four-wave mixing in WDM optical communication systems[J].J of Optoelectronics·Lasers(光电子·激光),2002,13(3):253-256.
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同被引文献14

  • 1传输陈勇,曹继红,谭中伟,刘艳,陈婷,马丽娜,常德远,宁提纲,裴丽,简水生.利用CFBG补偿色散实现2015km8×10Gb/s光传输[J].光电子.激光,2005,16(8):942-946. 被引量:5
  • 2ZHU Bo YANG XiangLin.Fiber soliton-form 3R regenerator and its performance analysis[J].Science in China(Series F),2007,50(2):241-250. 被引量:5
  • 3Masahiro Daikoku,Tetsuya Miyazaki,ltsuro Morita,et al.8× 160 Gb/s WDM field tranmission experiment with single-polarization RZ-DPSK signals and PMD compensator[J].IEEE Photonics Technology Letters,2006,18 (2):391-393.
  • 4Chris Xu,Xiang Liu,Xing Wei.Differential phase-shift keying for high spectral efficiency optical transmissions[J].IEEE Journal of Selected Topics in Quantum Electronics,2004,10(2):281-293.
  • 5Gordon J P,Mollenauer L F.Phase noise in photonic communications systems using linear amplifiers[J].Optics Letters,1990,15 (23):1351-1353.
  • 6Ho Keang-Po,Wang His-Cheng.Comparison of nonlinear phase noise and intrachannel four-wave mixing for RZDPSK signals in dispersive transmission systems[J].IEEE Photonics Technology Letters,2005,17 (7):1426-1428.
  • 7Ho Keang-Po.Error probability of DPSK signals with intrachannel four-wave mixing in highly dispersive transmission systems[J].IEEE Photonics Technology Letters,2005,17(4):789-791.
  • 8Hoon Kim,Alan H Gnauck.Experimental investigation of the performance limitation of DPSK systems due to nonlinear phase noise[J].IEEE Photonics Technology Letters,2003,15(2):320-322.
  • 9Xing Wei,Xiang Liu,Chris Xu.Numerical simulation of the SPM penalty in a 10 Gb/s RZ-DPSK system[J].IEEE Photonics Technololgy Letters,2003,15 (11):1636-1638.
  • 10Xing Wei,Xiang Liu.Analysis of intrachannel four-wave mixing in differential phase-shift keying transmission with large dispersion[J].Optics Letters,2003,28 (23):2300-2302.

引证文献2

二级引证文献6

光电子.激光
2004年 第8期

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