[1] WEBER H G, LUDWIG R, FERBER S, et al. Ultrahigh-speed OTDM-transmission technology[J]. Journal of Lightwave Technology, 2006, 12(24): 4616-4627.
[2] SCHUH K, SCHMIDT M, LACH E, et al. 4×160 Gbit/s DWDM/OTDM transmission over 3×80 km TeraLight-Reverse TeraLight fibre[C]. Copenhagen: ECOC, 2002: paper 2.1.2.
[4] WEBER H G, FERBER S, KROH M, et al. Single channel 1.28 T/s and 2.56 Tb/s DQPSK transmission[J]. Electron Lett, 2006, 3(42): 178–179.
[5] ATTYGALLE M, WEN Y J. Injection-locked Fabry-Perot laser with electronic feedback for clock recovery from high-speed OTDM signals[J]. IEEE Photon Tech Lett, 2006, 18(3): 478-480.
[6] BETTI S, BULLI C. Optical clock recovery from 10 Gb/s NRZ signal[J]. Microwave and Optical Technology Letters, 2004, 42(6): 435-437.
[8] TONG W, LOU C Y. A simple method for clock recovery[J]. Opt and Laser Tech, 2004, 36(8): 613-616.
[9] LI J, OLSSON B, KARLSSON M, et al. OTDM demultiplexer based on XPM-induced wavelength shifting in highly nonlinear fiber[C]. Optical Fiber Communications Conference, 2003: paper TuH6.
[10] SOKOLOFF J P, PRUCNAL P R, GLESK I, et al. A terahertz optical asymmetric demultiplexer (TOAD)[J]. IEEE Photon Tech Lett, 1993, 7(5): 787-790.
[11] QIU J, ZHOU G, WU J, et al. 8×10 Gb/s OTDM signal demultiplexing by using self-cascaded electro-absorption modulator(EAM) after transmitting over 300 km[J]. IEEE Photon Tech Lett, 2006, 23(18): 2541-2543.
[12] LI Tang-jun. Studies on key technology in 160 Gb/s OTDM system[D]. Beijing: Beijing Jiaotong University, 2008.