[1] Kang Dongguo, Zheng Wudi, Wang Min, . Forming mechanism of hot spot in shock ignition scheme to laser fusion[J]. High Power Laser and Particle Beams, 27, 032005(2015).

[2] Richardson D J, Nilsson J, Clarkson W A. High power fiber lasers: current status and future perspectives [Invited][J]. Journal of the optical society of America B, 27, B63-B92(2010).

[3] Glenzer S H, Froula D H, Divol L, et al. Experiments and multiscale simulations of laser propagation through ignition-scale plasmas[J]. Nature Physics, 3, 716-719(2007).

[4] Betti R, Hurricane O A. Inertial-confinement fusion with lasers[J]. Nature Physics, 12, 435-448(2016).

[5] Dorrer C, Hill E M, Zuegel J D. High-energy parametric amplification of spectrally incoherent broadband pulses[J]. Optics Express, 28, 451-471(2020).

[6] Dorrer C, Spilatro M, Herman S, et al. Broadband sum-frequency generation of spectrally incoherent pulses[J]. Optics Express, 29, 16135-16152(2021).

[7] Gao Yanqi, Cui Yong, Ji Lailin, et al. Development of low-coherence high-power laser drivers for inertial confinement fusion[J]. Matter and Radiation at Extremes, 5, 065201(2020).

[8] Gao Yanqi, Ji Lailin, Cui Yong, . kJ low-coherence broadband Nd: glass laser driver facility[J]. High Power Laser and Particle Beams, 32, 011004(2020).

[9] Zheng Wanguo, Li Ping, Zhang Rui, . Progress on laser precise control for high power laser facility[J]. High Power Laser and Particle Beams, 32, 011003(2020).

[10] Zong Zhaoyu, Zhao Junpu, Li Sen, . Precise laser pulse shaping technology and application with high energy stability[J]. High Power Laser and Particle Beams, 34, 031011(2022).

[11] Nakatsuka M, Miyanaga N, Kanabe T, et al. Partially coherent light sources f ICF experiment[C]Proceedings of SPIE 1870, Laser Coherence Control: Technology Applications. 1993: 151162.

[12] Nakano H, Kanabe T, Yagi K, et al. Amplification and propagation of partially coherent amplified spontaneous emission from Nd: glass[J]. Optics Communications, 78, 123-127(1990).

[13] Nakano H, Tsubakimoto K, Miyanaga N, et al. Spectrally dispersed amplified spontaneous emission for improving irradiation uniformity into high power Nd: glass laser system[J]. Journal of Applied Physics, 73, 2122-2131(1993).

[14] Nakano H, Miyanaga N, Yagi K, et al. Partially coherent light generated by using single and multimode optical fibers in a high-power Nd: glass laser system[J]. Applied Physics Letters, 63, 580-582(1993).

[15] Wisoff P J, Bowers M W, Erbert G V, et al. NIF injection laser system[C]Proceedings of SPIE 5341, Optical Engineering at the Lawrence Liverme National Labaty II: The National Ignition Facility. 2004: 146155.

[16] Peng Hansheng, Zhang Xiaomin, Wei X F, et al. Design of 60kJ SGIII laser facility related technology development[C]Proceedings of SPIE 4424, ECLIM 2000: 26th European Conference on Laser Interaction with Matter. 2001: 98103.

[17] Follett R K, Shaw J G, Myatt J F, et al. Thresholds of absolute instabilities driven by a broadband laser[J]. Physics of Plasmas, 26, 062111(2019).

[18] Rao Daxing, Gao Yanqi, Cui Yong, et al. 1 μJ nanosecond low-coherent laser source with precise temporal shaping and spectral control[J]. Optics & Laser Technology, 122, 105850(2020).

[19] Huang Xiaodong. Research on key technology in ICF laser driver frontend system[D]. Ji’nan: Shong University, 2010

[20] Wolf E. Introduction to the they of coherence polarization of light[M]. Pu Jixiong, trans. Beijing: Peking University Press, 2014