Numerical Study on Optical Solitons Transmission System with 40 Gbit/s in the Photonic Crystal Fiber

Numerical Study on Optical Solitons Transmission System with 40 Gbit/s in the Photonic Crystal Fiber

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摘要 The 40 Gbit/s optical solitons transmission system in photonic crystal fiber was investigated by fast Fourier transform method, and the maximum transmission distance of system was calculated numerically. By the eye pattern of system, the transmission performances of system were studied. Results show that when polarization mode dispersion coefficient Dp is smaller than , the influence of the PMD on the transmission distance was neglectable. When the dispersion coefficient D is larger than 1.5 ps/km/nm, the transmission distance decreases rapidly. The positive or negative of three order group-velocity dispersion makes no differences on the system transmission. The 40 Gbit/s optical solitons transmission system in photonic crystal fiber was investigated by fast Fourier transform method, and the maximum transmission distance of system was calculated numerically. By the eye pattern of system, the transmission performances of system were studied. Results show that when polarization mode dispersion coefficient Dp is smaller than , the influence of the PMD on the transmission distance was neglectable. When the dispersion coefficient D is larger than 1.5 ps/km/nm, the transmission distance decreases rapidly. The positive or negative of three order group-velocity dispersion makes no differences on the system transmission.

作者 Jing Wang Shanshan Wang Xiaoliang Chu Meiling Sun

机构地区 Institution of Information Science and Engineering

出处《Optics and Photonics Journal》 2013年第2期141-146,共6页 光学与光子学期刊（英文）

关键词 MAXIMUM Transmission DISTANCE Eye Pattern PHOTONIC Crystal Fiber Polarization Mode Dispersion High Order Nonlinear Maximum Transmission Distance Eye Pattern Photonic Crystal Fiber Polarization Mode Dispersion High Order Nonlinear

分类号 TN92 [电子电信—通信与信息系统]

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Numerical Study on Optical Solitons Transmission System with 40 Gbit/s in the Photonic Crystal Fiber

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