| 偏振模色散及非线性效应对40 Gbit/s密集波分复用系统的影响 |
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| 引用本文: | 孙学明,张慧剑,左萌,顾畹仪,徐大雄.偏振模色散及非线性效应对40 Gbit/s密集波分复用系统的影响[J].光学学报,2004,24(10):363-1369. |
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| 作者姓名: | 孙学明 张慧剑 左萌 顾畹仪 徐大雄 |
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| 作者单位: | 北京邮电大学光通信中心,北京,100876;北京电子科技学院基础部,北京,100070;北京邮电大学光通信中心,北京,100876 |
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| 基金项目: | 国家自然科学基金 (6 0 132 0 2 0 ),国家 86 3计划资助课题 |
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| 摘 要: | 高速率、大容量的密集波分复用系统是光纤通信系统的最终发展方向 ,单信道速率达到 4 0Gbit/s时 ,光纤的非线性效应、偏振模色散现象对系统的影响更加突出。在综合考虑群速度色散、自相位调制、交叉相位调制、四波混合、偏振模色散等因素的基础上 ,推导了密集波分复用系统中任意信道的耦合非线性薛定谔方程组。利用扩展的分步傅里叶方法对该方程进行了数值计算 ,通过对 8× 4 0Gbit/s密集波分复用系统的仿真 ,分别研究了非线性效应和偏振模色散对密集波分复用系统的影响。发现由于交叉相位调制和四波混合作用 ,多波长的密集波分复用系统比单波系统受非线性效应影响严重 ;系统受偏振模色散与非线性效应的影响程度与输入信号功率有关 ,在入射光单信道平均功率较低 0 .1mW时 ,偏振模色散是影响系统性能的主要因素 ;当入射光单信道平均功率较高1mW时 ,系统受非线性效应影响严重。而偏振模色散在使信号脉冲展宽的同时 ,类似于非零色散位移光纤中的微小色散 ,对非线性效应又有一定的抑制作用。
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| 关 键 词: | 光通信系统 密集波分复用 非线性效应 偏振模色散 |
| 收稿时间: | 2003/10/23 |
Impacts of Polarization Mode Dispersion and Nonlinear Effect on 40 Gbit/s Dense Wavelength Division Multiplexing System |
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| Sun Xueming , Zhang Huijian Zuo Meng Gu Wanyi Xu Daxiong Optical Communications Center,Beijing University of Posts and Telecommunications,Beijing.Impacts of Polarization Mode Dispersion and Nonlinear Effect on 40 Gbit/s Dense Wavelength Division Multiplexing System[J].Acta Optica Sinica,2004,24(10):363-1369. |
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| Authors: | Sun Xueming Zhang Huijian Zuo Meng Gu Wanyi Xu Daxiong Optical Communications Center Beijing University of Posts and Telecommunications Beijing |
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| Institution: | Sun Xueming 1,2 Zhang Huijian1 Zuo Meng1 Gu Wanyi1 Xu Daxiong11 Optical Communications Center,Beijing University of Posts and Telecommunications,Beijing 1008762 Department of Basic Courses,Beijing Electronic and Science Technology Institute,Beijing 100070 |
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| Abstract: | Dense wavelength division multiplexing system is a final selection as an optical communication system because of its high speed and big capacities, but the fiber nonlinear effects and polarization mode dispersion limit severely the performance of the system when signal propagates at 40 Gbit/s in a single channel. The coupled nonlinear Schrodinger equations of a single channel in dense wavelength division multiplexing system are derived, considering all factors of group velocity dispersion, self-phase modulation, cross phase modulation, four wave mixing and polarization mode dispersion, and their number results are obtained with extended Split-step Fourier Method. To analyze the impacts of the fiber nonlinear effects and polarization mode dispersion on the optical communication system, the simulated results of a 8×40 Gbit/s dense wavelength division multiplexing system are discussed under different conditions respectively at last. It is found that nonlinear effects influence dense wavelength division multiplexing system more severely than single wave-length system because of the effects of cross phase modulation and four wave mixing. The degree of impacts of polarization mode dispersion and nonlinear effects on system is related to the power of the input signal. When the average power of the input signal is below 0.1 mW, the influence of polarization mode dispersion is dominating; while it is 1 mW, the impact of nonlinear effects is worse than polarization mode dispersion. But polarization mode dispersion, which can widen pulse and is similar to the small chromatic dispersion in G.655 fiber, can mitigate the impact of nonlinear effects. |
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| Keywords: | optical communication system dense wavelength division multiplexing nonlinear effect polarization mode dispersion |
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