[1] Ouellette F. Dispersion cancellation using linearly chirped Bragg grating filters in optical waveguides [J]. Opt. Lett.,1987, 12(10): 847～849

[2] Williams J A R, Bennion I, Doran N J. The design of in-fiber Bragg grating systems for cubic and quadratic dispersion compensation [J]. Opt. Comm., 1995, 116:62～66

[3] Eggleton B, Stephens T, Krug P A et al. Dispersion compensation over 100 km at 10 Gbit/s using a fiber grating in transmission [J]. in Proc. OFC'96, 1996, paper PD5-2

[4] Komukai T, Nakazawa M. Fabrication of non-linearly chirped fiber Bragg gratings for higher-order dispersion compensation [J]. Opt. Comm., 1998, 154:5～8

[5] Durkin M K, Feced R, Ramerez C et al. Advanced fiber Bragg gratings for high performance dispersion compen sation in DWDM systems [J]. in Proc. OFC'2000, 2000, paper TuH 4-1

[6] Xie Y, Lee S, Pan Z et al. Tunable compensation of the dispersion slope mismatch in dispersion-managed systems using a sampled nonlinearly-chirped FBG [J]. In Proc. OFC'2000, 2000, paper ThS 2-1

[7] Hill K O, Malo B, Bilodeau F et al. Bragg gratings fabricated in monomode photosensitive optical fiber by UV exposure through a phase mask [J]. Appl. Phys. Lett., 1993, 62:1035～1037

[9] Williams J A R, Everall L A, Bennion I et al. Fiber Bragg grating fabrication for dispersion slope compensation [J]. IEEE Photo. Technol. Lett., 1996, 8(9): 1187～1189

[10] Hill K O. Aperiodic distributed-parameter waveguides for integrated optics [J]. Appl. Opt., 1974, 13:1853～1856