[1] Perry M D, Mourou G. Terawatt to petawatt subpicosecond lasers[J]. Science, 1994, 264(5161): 917-924.

[2] Xiao J, Wang Z Y, Xu Z Z. Propagation of few-cycle pulse laser in two-level atom medium[J]. Chinese Physics Letters, 2001, 18(7): 912-914.

[3] Kmetec J D, Gordon C L, Macklin J J, et al. MeV X-ray generation with a femtosecond laser[J]. Physical Review Letters, 1992, 68(10): 1527-1530.

[4] L'Huillier A. Balcou P. High-order harmonic generation in rare gases with a 1-ps 1053-nm laser[J]. Physical Review Letters, 1993, 70(6): 774-777.

[5] Tabak M, Hammer J, Glinsky M E, et al. Ignition and high gain with ultrapowerful lasers[J]. Physics of Plasmas, 1994, 1(5): 1626-1634.

[6] Strickland D, Mourou G. Compression of amplified chirped optical pulses[J]. Optics Communications, 1985, 56(3): 219-221.

[7] Danson C N, Haefner C, Bromage J, et al. Petawatt and exawatt class lasers worldwide[J]. High Power Laser Science and Engineering, 2019, 7(3): e54.

[8] Danson C, Hillier D, Hopps N, et al. Petawatt class lasers worldwide[J]. High Power Laser Science and Engineering, 2015, 3(1): e3.

[9] 冷雨欣. 上海超强超短激光实验装置[J]. 中国激光, 2019, 46(1): 0100001.

    Leng Y X. Shanghai superintense ultrafast laser facility[J]. Chinese Journal of Lasers, 2019, 46(1): 0100001.

[10] 朱健强, 陈绍和, 郑玉霞, 等. 神光II激光装置研制[J]. 中国激光, 2019, 46(1): 0100002.

    Zhu J Q, Chen S H, Zhen Y X, et al. Review on development of Shenguang-II laser facility[J]. Chinese Journal of Lasers, 2019, 46(1): 0100002.

[11] Perry M D, Pennington D, Stuart B C, et al. Petawatt laser pulses[J]. Optics Letters, 1999, 24(3): 160-162.

[12] Barty C P J, Key M, Britten J, et al. An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments[J]. Nuclear Fusion, 2004, 44(12): S266-S275.

[13] Kelly J, Waxer L J, Bagnoud V, et al. OMEGA EP: High-energy petawatt capability for the OMEGA laser facility[J]. Journal De Physique Iv, 2006, 133: 75-80.

[14] Blanchot N, Behar G, Berthier T, et al. Overview of PETAL, the multi-Petawatt project on the LIL facility[J]. Plasma Physics and Controlled Fusion, 2008, 50(12): 124045.

[15] Xu G, Wang T, Li Z Y, et al. 1 kJ petawatt laser system for SG-II-U program[J]. The Review of Laser Engineering, 2008, 36(APLS): 1172-1175.

[16] 马再如, 朱启华, 冯国英, 等. 啁啾光脉冲的自相位调制效应对压缩光脉冲的影响[J]. 强激光与粒子束, 2005, 17(3): 391-394.

    Ma Z R, Zhu Q H, Feng G Y, et al. Effect of self phase modulation of chirped pulses on compressed pulses[J]. High Power Laser and Particle Beams, 2005, 17(3): 391-394.

[17] 楚晓亮, 张彬. 超短脉冲在放大介质中传输特性研究[J]. 光子学报, 2004, 33(6): 641-644.

    Chu X L, Zhang B. Study on the propagation properties of the ultrashort pulse in the amplified medium[J]. Acta Photonica Sinica, 2004, 33(6): 641-644.

[18] Perry M D, Ditmire T, Stuart B C. Self-phase modulation in chirped-pulse amplification[J]. Optics Letters, 1994, 19(24): 2149-2151.

[19] Lu X Q, Fan D Y. A theoretical study about the chirped pulse amplification laser[J]. Chinese Physics, 2003, 12(2): 169-173.

[20] Chuang Y H, Zheng L, Meyerhofer D D. Propagation of light pulses in a chirped-pulse-amplification laser[J]. IEEE Journal of Quantum Electronics, 1993, 29(1): 270-280.

[21] 张艳丽, 张军勇, 尤科伟, 等. 高功率激光多程放大系统中的快速波形预测[J]. 光学学报, 2016, 36(7): 0714001.

    Zhang Y L, Zhang J Y, You K W, et al. Fast shape prediction in multi-pass amplifier of high power laser system[J]. Acta Optica Sinica, 2016, 36(7): 0714001.

[22] 管相合, 张艳丽, 张军勇, 等. 高功率激光多程放大器的三维反演方法[J]. 光学学报, 2018, 38(5): 0514004.

    Guan X H, Zhang Y L, Zhang J Y, et al. Three-dimensional inversion method for high power laser multi-pass amplifier[J]. Acta Optica Sinica, 2018, 38(5): 0514004.

[23] Voelz D G, Roggemann M C. Digital simulation of scalar optical diffraction: revisiting chirp function sampling criteria and consequences[J]. Applied Optics, 2009, 48(32): 6132-6142.