[1] ZHANG Zhi-gang, XU Min. Chirped mirrors used for femtosecond solid state lasers[J]. Journal of Optoelectronics·Laser, 1999, 10(3):287-290.
[4] MAINE P, STRICKLAND D, BADO P, et al. Generation of ultrahigh peak power pulses by chirped pulse amplification[J]. IEEE J of Quant Electron, 1988, 24(2):398-403.
[6] CHUANG Y H. Propagation of light pulses in a chirped-pulse-amplification laser[J]. IEEE J of Quant Electron, 1993,29(1):270-280.
[7] MATSUOKA S, YAMAKAWA K. Development of a model for chirped-pulse amplification of sub-20fs laser pulse[J]. Jpn J A Phys, 1988,37(11):5997-6000.
[8] BLANC CL, CURLEY P, SALIN F. Gain-norring and gain-shifting of ultra-short pulses in Ti:Sapphire amplifiers[J]. Opt Commun, 1996,131(4-6):391-398.
[10] L Bai-da, ZHANG Bin. Theory of the high-power laser propagation through amplifiers[J]. Laser Technology, 1997,21(5):288-292.
[11] BRIDGES R E, BOYD R W, AGRAWAL G P. Multidimensional coupling owing to optical nonlinearites.Ⅰ.General formulation[J]. JOSA, 1996,B13(3):553-559.
[14] TU Cheng-hou, LEI Ting, ZHU Hui, et al. Influence of femtosecond pulse′s initial width and chirp on its self similar evolution and compression[J]. Acta Photonica Sinica, 2008,37(10):1932-1936.
[16] AGRAWAL G P. Nonlinear fiber optics[M]. 3rd ed.Boston: Academic,2001.
[17] AGRAWAL G P. Optical pulse propagation in doped fiber amplifiers[J]. Phys Rev A, 1991, 144(11):7493-7501.
[18] AGRAWAL G P. Effect of gain dispersion on ultrashort pulse amplification in semiconductor laser amplifiers[J]. JOSA,2000, 17(11):1834-1849.
[19] ROY S, BHADRA S. Study of nonlinear dissipative pulse propagation under the combined effect of two-photon absorption and gain dispersion: a variational approach involving rayleigh′s dissipation function[J]. Optik, 2006, 17(5):103-107.