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在偏振复用相干传输系统中的非线性效应及衰减
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Nonlinear polarization ef fects and mitigation in polarization-division-multiplexed coherent transmission systems (Invited Paper)

摘    要
应用数值模拟方法研究了偏振复用正交相移键控(PDM-QPSK)相干系统的非线性传输过程。我们发现由非线性散射产生的信道内交叉偏振调制可以大幅度衰减PDM-QPSK相干系统的传输并且改变相干光传输系统的色散管理特性。本文讨论了在色散管理偏振复用相干传输系统中减少非线性散射的相关技术,其中包括时域交错归零PDM方式、周期群延时色散补偿以及在传输连接处适当加入偏振复用。结果表明非线性偏振散射可以被很好衰减,装配色散管理的多路偏振复用相干光传输系统可获得更好的结果。
标    签 光纤光通信   非线性偏振效应   交叉偏振调制   交叉相位调制   偏振复用   060.2330   060.4370   260.5430  
 
Abstract
Using numerical simulations, the nonlinear transmission performance of polarization-division-multiplexed quadrature-phase-shift-keying (PDM-QPSK) coherent systems is studied. It is found that inter-channel cross-polarization modulation (XPolM) induced nonlinear polarization scattering can significantly degrade the transmission performance of PDM-QPSK coherent systems and change the perspective of dispersion management in optical coherent transmission systems. Some techniques to mitigate nonlinear polarization scattering in dispersion-managed PDM coherent transmission systems are discussed, including the use of time-interleaved return-to-zero (RZ) PDM formats, the use of periodic-group-delay PGD dispersion compensators, and the judicious addition of some polarization-mode-dispersion (PMD) in the transmission link. It is shown that if nonlinear polarization scattering can be well mitigated, a polarization multiplexed optical coherent transmission system with dispersion management could perform better than that without it.

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收稿日期 2010/7/5

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引用该论文: Chongjin Xie. Nonlinear polarization ef fects and mitigation in polarization-division-multiplexed coherent transmission systems (Invited Paper)[J]. 中国光学快报, 2010, 8(9): 844~851


被引情况:


【1】, "Temperature independent 80 Gb/s transmission system using spectral phase modulation-based TDC",Chinese Optics Letters 10, 20602-20605(2012)

【2】, "Effects of pattern dependence on high-power polarization-division-multiplexing applications",Chinese Optics Letters 10, 10601-10603(2012)

【3】曾祥烨,刘剑飞,赵启大, "偏振复用光纤通信系统色散均衡器及算法的研究",光学学报 32, 206003--1(2012)



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