[1] Hasegawa A, Tappert F D. Transmission of stationary nonlinear optical pulses in dispersive dielectric fibers [J].Appl. Phys. Lett., 1973, 23: 142-144.

[2] Hasegawa A. Optical Solitons in Fibers [M]. 2nd ed, Berlin: Springer-Verlag, 1989.

[3] Hasegawa A, Kodama Y. Solitons in Optical Communications [M]. Oxford: Clarendon Press, 1995.

[5] Govind P. Agrawal Nonlinear Fiber Optics [M]. 3rd Edition, 2002.

[7] Doran N J, Wood D. Nonlinear-optical loop mirror [J]. Opt. Lett., 1988, 13: 56-58.

[8] Mollenauer L F, Stolen R H. The soliton laser [J]. Opt. Lett., 1984, 9: 13-15.

[9] Manly S, Page E. Experimental feasibility of measuring the gravitational redshift of light using dispersion in optical fibers [J]. Physical Review D, 2001, 63: 062003.

[10] Nakazawa M, Yamada E, Kubota H, et al. Raman amplification of gain switched laser diode signal at 1.35 μm to soliton power levels [J]. IEEE Electron. Lett., 1991, 27: 1270-1272.

[11] Balacrishnan A V. Kalman Filtering Theory [M]. New York: Optimization Software, 1984.

[14] Moores J D, Wong W S, Haus H A. Stability and time maintenance in soliton transmission and storage rings [J].Opt. Comm., 1994, 113: 153-175.

[15] Kath W L, Mecozzi A, Kumar P, et al. Long-term storage of a soliton bit stream using phase-sensitive amplification: effects of soliton-soliton interactions and quantum noise [J]. Opt. Comm., 1998, 157: 310-326.

[16] Gordon J P, Haus H A. Random walk of coherently amplified solitons in optical fiber transmission[J]. Opt. Lett.,1986, 11: 665.