[1] FAN Zh, GUANG W Q, ZHOU H, et al. Research on dispersion compensation for OFDM signal fiber transmission [J]. Laser Technology,2011,35(1):112-116(in Chinese).

[2] CAO X. Optimization of dispersion compensation in optical fiber communication systems[J]. Laser Technology,2014,38(1):101-104(in Chinese).

[3] WANG X D, LI S W, MIAO Sh G, et al. Evolution and compression of self-similar pulse-pairs in dispersion decreasing fiber [J]. Laser Technology, 2014,38(4):533-537 (in Chinese).

[4] CAI J, ZHANG L, ZHAO Y J, et al. Dispersion management scheme of quasi-linear optical transmission system [J]. Chinese Journal of Quantum Electronics, 2015,32(3):378-384 (in Chinese).

[5] MAO X R, ZHANG J H, ZHAO Q. Combined scheme research on static and dynamic dispersion compensation based on Optisystem [J]. Journal of Applied Optics,2015,36(6):888-892 (in Chinese).

[6] XIE L N, CAO L, ZHANG L, et al. Techniques for Kerr nonlinearity compensation in fiber communication systems [J]. Laser & Optoelectronics Progress, 2019, 56(6):060002 (in Chinese).

[7] AN Y D, WANG J F, ZHANG Ch X, et al. The excitation and propagation of high-amplitude pulses in nonlinear dispersion-decreasing fiber [J]. Journal of Quantum Optics,2016,22(2):140-147(in Chinese).

[8] CAO W H, WANG Y, LIU S H. Dispersion and nonlinearity compensation in optical fiber communication systems by optical phase conjugation incorporated pulse prechirp[J]. Acta Optica Sinica,2012,32(9):0906005(in Chinese).

[9] WANG X B, WANG Y L, YANG Y B, et al. Comparison of OOK transmission performance in different FBG dispersion compensation structures [J]. Laser & Infrared,2017,47(1):87-91(in Chinese).

[10] LIU X L, XIONG X J. Performance analysis of photoelectric dispersion compensation technology based on optisystem[J]. Electronic Measurement Technology,2017,40(11):114-119(in Chinese).

[11] JIANG T, ZHANG K F, WANG Y X, et al. Research of dispersion compensation for 40Gb/s metro network based on optisystem[J]. Laser Journal,2016,37(9):27-30(in Chinese).

[12] ZHANG X, XU H Y, NIU H G, et al. Comparison of two new modulation format in optical fiber communication system[J]. Optical Communication Technology,2008,32(9):9-12(in Chinese).

[13] HE Zh. Research on advanced modulation scheme in high speed optical communication system[D].Wuhan:Huazhong University of Science and Technology,2011:24-35(in Chinese).

[14] WANG Zh X, TAO L, HUANG X X, et al. Applications of advanced modulation formats in short-range optical communication systems[J]. Study on Optical Communications,2014(3):11-14(in Chinese).

[15] HUI Zh Q, ZHANG J G. Recent progress in all-optical NRZ-to-RZ format conversion[J]. Laser & Optoelectronics Progress,2012,49(6):060003(in Chinese).

[16] ZHOU W T, CUI L M, WANG X, et al. Ultra-long span unrepeatered fiber optical communication system with nonlinear compensation algorithm[J]. Study on Optical Communications,2018(4):14-17(in Chinese).

[17] LI M X, CHEN H, ZHANG Y L, et al. The realization of ultra-long distance transmission on G.652 optical fiber with PMD-QPSK and coherent detection techniques [J]. Designing Techniques of Posts and Telecommunications,2011(11):18-20(in Chinese).

[18] AGRAWAL G P. Nonlinear fiber optics[M]. New York,USA: Academic Press,2014:5-56.

[19] PENG W J, PAN W, YAN L Sh, et al. Optical generation of microwave signals with multiple modulation formats based on Mach-Zehnder modulators [J]. Journal of Optoelectronics·Laser,2017,28(11):1198-1204 (in Chinese).

[20] XU K, ZHOU G T, WU L, et al. Comparisons of high speed optical modulation formats using LiNbO3 optical waveguide modulators[J]. Journal of Beijing University of Posts and Telecommunications,2004,27(4):50-54(in Chinese).

[21] YING X Y, XU T F, LIU T J, et al. New method for generation of RZ/CSRZ-DQPSK signals based on MZM[J]. Infrared and Laser Engineering,2012,41(3):755-758(in Chinese).