摘要
基于主偏振态理论和一阶近似,导出了光路的偏振模色散引起信号偏振度下降的简洁解析表达式。它能处理多种因素对偏振度下降的影响,包括信号啁啾、升降时间、放大自发辐射、脉冲波形和消光比等。通过我们的仿真数据与实验结果的比较,验证了它的正确性,数值仿真也表明利用信号偏振度监测和控制偏振模色散的DOP技术能有效补偿差分群延迟小于1.5个位周期的光通信系统的偏振模色散。
Based on principal state of polarization (PSP) theory and first-order approximation, we derive a compact analytical
expression of the degree of polarization (DOP) degradation of optical signal induced by the polarization mode dispersion (PMD)
of the optical link. Our analytical approach can handle the effects of various factors of the DOP degradation, such as signal
chirp, rise/fall time, amplified spontaneous emission (ASE) noise, waveform, extinction ratio, and so on. The validity of our
analytic approach has been demonstrated by the comparison between our numerical simulation and the reported experiments.
The simulations also show that the DOP method, which uses the signal DOP to monitor and control PMD, can compensate the
PMD effects in optical communication systems with the amount of differential group delay (DGD) smaller than 1.5 bit time.
出处
《西南民族大学学报(自然科学版)》
CAS
2004年第3期314-317,共4页
Journal of Southwest Minzu University(Natural Science Edition)
关键词
偏振模色散
PMD补偿
偏振度
差分群延迟
polarization mode dispersion
PMD compensation
degree of polarization
differential group delay