[1] H. S. Chung, R. Inohara, K. Nishimura et al.. 40-Gb/s NRZ wavelength conversion with 3R regeneration using an EA modulator and SOA polarization-discriminating delay interferometer［J］. IEEE Photon. Technol. Lett., 2006, 18(2): 337～339

[2] Lou Caiyun, Yang Yanfu, Huo Li et al.. 40 Gb/s all optical 3R regeneration［J］. Acta Optica Sinica, 2005, 25(11): 1467～1471

[3] R. Maldonado-Basilio, S. Latkowski, J. Parra-Cetina et al.. All-optical 40 Gb/s 3R regeneration assisted by clock-extraction based on a passively mode-locked quantum-dash Fabry-Perot laser ［C］. Optical Communication (ECOC), 2010 36th European Conference and Exhibition on, 2010. 1～3

[4] Z. Q. Zhu, M. Funabashi, Z. Pan et al.. High-performance optical 3R regeneration for scalable fiber transmission system applications［J］. J. Lightwave Technol., 2007, 25(2): 504～511

[5] C. Yu, T. Luo, B. Zhang et al.. Wavelength-shift-free 3R regenerator for 40-Gb/s RZ system by optical parametric amplification in fiber［J］. IEEE Photon. Technol. Lett., 2006, 18(24): 2569～2571

[6] S. Watanabe, F. Futami, R. Okabe et al.. 160 Gb/s optical 3R-regenerator in a fiber transmission experiment［C］. Optical Fiber Communication Conference, Technical Digest (Optical Society of America, 2003), 2003. PD16

[7] N. S. M. Shah, M. Matsumoto. All-optical regeneration of time-interleaved multi-wavelength signals based on higher-order four-wave mixing［C］. Summer Topical Meeting, LEOSST′09. IEEE/LEOS, 2009. 103~104

[8] R. Slavik, J. Kakande, F. Parmigiani et al.. All-optical regeneration based on phase sensitive amplification［C］. CLEO:2011-Laser Applications to Photonic Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), 2011. CWD2

[9] Han Bingchen , Yu Jinlong, Luo Jun et al.. Experimental research on dual wavelength all-optical decision based on fiber-optical parametric amplifier［J］. Acta Optica Sinica, 2010, 30(6): 1576～1580

[10] Jiang Yang, Yu Jinlong, Zhang Aixu et al.. All optical multi-wavelength conversion and data format conversion based on dual-pumped fiber optical parametric amplifier［J］. Acta Optica Sinica, 2008, 28(6): 1051～1056

[11] O. Leclerc, B. Lavigne, E. Balmefrezol et al.. Optical regeneration at 40 Gb/s and beyond［J］. J. Lightwave Technol., 2003, 21(11): 2779～2790

[12] Y. K. Huang, I. Glesk, R. Shankar et al.. Simultaneous all-optical 3R regeneration scheme with improved scalability using TOAD［J］. Opt. Express, 2006, 14(22): 10339～10344

[13] Y. K. Huang, L. Xu, I. Glesk et al.. Simultaneous all-optical 3R regeneration of multiple WDM channels［C］. Lasers and Electro-Optics Society, 2005. LEOS 2005. The 18th Annual Meeting of the IEEE , 2005. 135～136

[14] G. P. Agrawal. Nonlinear Fiber Optics & Applications of Nonlinear Fiber Optics［M］. Jia Dongfang Transl.. Beijing:Publishig House of Electronics Industry, 2002. 246～258

[15] P. Kylemark, H. Sunnerud, M. Karlsson et al.. Semi-analytic saturation theory of fiber optical parametric amplifiers ［J］. J. Lightwave Technol., 2006, 24(9): 3471～3479

[16] Yu Jinlong, Wang Yaotian, Zhang Aixu et al.. Experimental study on 40 Gb/s all optical 3R regeneration［J］. Acta Optica Sinica, 2007, 27(5): 801～806

[17] Wang Wenrui, Yu Jinlong, Zhang Aixu et al.. A novel multi-rate all-optical packet clock recovery system of return-to-zero code［J］. Acta Optica Sinica, 2008, 28(3): 423～428

[18] Luo Jun, Yu Jinlong, Wang Ju et al.. Experimental investigation of 40 Gb/s all-optical clock recovery using high finesse Fabry-Perot filter［J］. J. Optoelectronics·Laser, 2010, 21(9): 1324～1327