[1] B M Van Wonterghem, S C Burkhart, C A Haynam, et al.. National ignition facility commissioning and performance[C]. SPIE, 2004, 5341: 55-65.

[2] 孙权, 周经伦, 魏晓峰, 等. 惯性约束聚变激光装置系统可靠性研究[J]. 激光与光电子学进展, 2003, 40(1): 12-15.

    Sun Quan, Zhou Jinglun, Wei Xiaofeng, et al.. System reliability research about the inertial confinement fusion laser driver [J]. Laser & Optoelectronics Progress, 2003, 40(1): 12-15.

[3] J P Chu, J M Rigsbee, G Banas, et al.. Laser-shock processing effects on surface microstructure and mechanical properties of low carbon steel[J]. Materials Science and Engineering: A, 1999, 260(1-2): 260-268.

[4] 于涌, 李岩, 毛银盾, 等. 空间碎片激光测距与光学测角一体化观测试验[J]. 天文研究与技术, 2013, 10(4): 359-364.

    Yu Yong, Li Yan, Mao Yindun, et al.. Experiment observations of space debris integrating laser ranging and optical direction measurement[J]. Astronomical Research & Technology, 2013, 10(4): 359-364.

[5] 丁迎春, 吕志伟, 赵晓彦, 等. 受激布里渊散射相位共轭组束的研究现状和发展前景[J]. 激光与光电子学进展, 2000, 37(5): 7- 12.

    Ding Yingchun, Lü Zhiwei, Zhao Xiaoyan, et al.. Current situation and outlook for beam combination by stimulated Brillouin scattering[J]. Laser & Optoelectronics Progress, 2000, 37(5): 7-12.

[6] H J Kong, J W Yoon, J S Shin, et al.. Long term stabilization of the beam combination laser with a phase controlled stimulated Brillouin scattering phase conjugation mirrors for the laser fusion driver[J]. Laser Part Beams, 2006, 24(4): 519-523.

[7] H J Kong, J W Yoon, D H. Beak, et al.. Laser fusion driver using stimulated Brillouin scattering phase conjugate mirrors by a self-density modulation[J]. Laser Part Beams, 2007, 25(2): 225-238.

[8] 陈金宝, 郭少锋. 高能固态激光器技术路线分析[J]. 中国激光, 2013, 40(6): 0602006.

    Chen Jinbao, Guo Shaofeng. Review on technical approaches of high energy solid-state-lasers[J]. Chinese J Lasers, 2013, 40(6): 0602006.

[9] 母杰, 景峰, 王逍, 等. 相干合成中基于SPGD 算法的平移误差和倾斜误差控制[J]. 中国激光, 2014, 41(6): 0602002.

    Mu Jie, Jing Feng, Wang Xiao, et al.. Error control of piston and tilt based on SPGD in coherent beam combination[J]. Chinese J Lasers, 2014, 41(6): 0602002.

[10] D N Wang, Y N Ning, K T V Grattan, et al.. Three-wavelength combination source for white-light interferometry[J]. IEEE Photonics Technology Letters, 1993, 5(11): 1350-1352.

[11] T Y Fan. Laser beam combining for high-power, high-radiance sources[J]. IEEE, Jounal of Selected Topics in Quantum Electronics, 2005, 11(3): 567-577.

[12] Armen Sevian, Oleksiy Andrusyak, Igor Ciapurin, et al.. Efficient power scaling of laser radiation by spectral beam combining [J]. Opt Lett, 2008, 33(4): 384-386.

[13] S J Augst, T Y Fan, A Sanchez. Coherent beam combining and phase noise measurements of ytterbium fiber amplifiers[J]. Opt Lett, 2008, 29(5): 474-476.

[14] Hong Jin Kong, Seong Ku Lee, Dong Won Lee. Beam combined laser fusion driver with high power and high repetition rate using stimulated Brillouin scattering phase conjugation mirrors and self-phase-locking [J]. Laser and Particle Beams, 2005, 23(1): 55-59.

[15] T Omatsu, H J Kong, S Park, et al.. The current trends in SBS and phase conjugation[J]. Laser and Particle Beams, 2012, 30 (1): 117-174.

[16] Hong Jin Kong, Jae Sung Shin, Du Hyun Beak, et al.. Current trends in laser fusion driver and beam combination laser systems using stimulated Brillouin scattering phase conjugate mirrors for a fusion driver[J]. Journal of Korean Physical Society, 2010, 56(1): 177-183.

[17] 唐前进, 胡企铨. 布里渊增强四波混频组束研究进展[J]. 激光与光电子学进展, 2006, 43(1): 40-45.

    Tang Qianjing, Hu Qiquan. Progress of Brillouin- ehanced four- wave mixing in laser beam combining[J]. Laser & Optoelectronics Progress, 2006, 43 (1): 40-45.

[18] Damzen M J, Vlad V I, Babin V, et al.. Stimulated Brillouin Scattering Fundamentals and Applications[M]. London: Institute of Physics, 2003.

[19] M Dubinskii, M J Ferry, J R Goff, et al.. Highly scalable high repetition rate Nd: YAG laser based on coherent beam coupling [C]. CLEO, 2003: CThZ1.

[20] Hong Jin Kong, Jae Yong Lee, Yu Sup Shin, et al.. Beam recombination characteristics in array laser amplification using stimulated Brillouin scattering phase conjugation[J]. Opt Rev, 1997, 4(2): 277-283.

[21] Hidetsugu Yoshida, Masahiro Nakatsuka, et al.. Two-beam-combined 7.4 J, 50 Hz Q-switch pulsed YAG laser system based on SBS phase conjugation mirror for plasma diagnostics[J]. Japanese Journal of Applied Physics, 2004, 43(8A): 1038-1040.

[22] Seong Ku Lee, Hong Jin Kong, Masahiro Nakatsuka. Great improvement of phase controlling of the entirely independent stimulated Brillouin scattering phase conjugate mirrors by balancing the pump energies[J]. Applied Physics Letters, 2005, 87(16): 161109.

[23] Hong Jin Kong, Sangwoo Park, Seongwoo Cha, et al.. 0.4 J/10 ns/10 kHz-4 kW coherent beam combined laser using stimulated Brillouin scattering phase conjugation mirrors for industrial applications[J]. Phys Status Solidi C, 2013, 10(6): 962-966.

[24] Hong Jin Kong, Sangwoo Park, Seongwoo Cha, et al.. Conceptual design of the Kumgang laser: a high-power coherent beam combination laser using SC-SBS-PCMs towards a dream laser[J]. High Power Laser Science and Engineering, 2015, 3(1): 1-13.

[25] Shuangyi Wang, Zhiwei Lü, Dianyang Lin, et al.. Investigation of serial coherent laser beam combination based on Brillouin amplification[J]. Laser and Particle Beams, 2007, 25(1): 79-83.

[26] Zhiwei Lu, Wei Gao, Weiming He, et al.. High amplification and low noise achieved by a double-stage non-collinear Brillouin amplifier[J]. Opt Express, 2010, 17(13): 10675-10680.

[27] 丁迎春, 吕志伟, 何伟明. 受激布里渊散射相位共轭激光组束规律[J]. 强激光与粒子束, 2002, 14(3): 353-356.

    Ding Yingchun, Lü Zhiwei, He Weiming. Study of beam combination by stimulated Brillouin scattering[J]. High Power Laser and Partical Beams, 2002, 14(3):353-356.

[28] 吕志伟, 丁迎春, 何伟明. 抽运功率密度对布里渊放大的影响[J]. 物理学报, 2002, 51(6): 1286-1290.

    Lü Zhiwei, Ding Yingchun, He Weiming. The influence of pump power density on brillouin amplification[J]. Acta Physica Sinica, 2002, 51(6): 1286-1290.

[29] 丁迎春, 吕志伟, 何伟明. 布里渊放大光脉冲波形的研究[J]. 物理学报, 2003, 52(9): 2165-2169.

    Ding Yingchun, Lü Zhiwei, He Weiming. Study on pulse waveform of stimulated Brillouin amplification[J]. Acta Physica Sinica, 2003, 52(9): 2165-2169.

[30] 王双义, 林殿阳, 吕志伟, 等. 对受激布里渊散射激光进行组束的数值模拟及方案设计[J]. 强激光与粒子束, 2003, 15(9): 877- 880.

    Wang Shuangyi, Lin Dianyang, Lü Zhiwei, et al.. Numerical simulation and scheme design for laser beam combination of stimulated Brillouin scattering [J]. High Power Laser and Partical Beams, 2003, 15(9): 877-880.

[31] 王双义, 吕志伟, 林殿阳, 等. 受激布里渊散射激光组束中高功率斯托克斯光的放大[J]. 中国激光, 2006, 33(增刊): 111-113.

    Wang Shuanyi, Lü Zhiwei, Lin Dianyang, et al.. Amplification of high-power Stokes beam in laser beam combination by stimulated Brillouin scattering[J]. Chinese J Lasers, 2006, 33(S): 111-113.

[32] Qi Guo, Zhiwei Lu, Yulei Wang. Highly efficient Brillouin amplification of strong Stokes seed[J]. Applied Physics Letters, 2010, 96: 221107.

[33] Y L Wang, Z W Lu, S Y Wang, et al.. Investigation on efficiency of non-collinear serial laser beam combination based on Brillouin amplication[J]. Laser and Particle Beams, 2009, 27(4): 651-655.

[34] 王雨雷, 吕志伟, 王双义, 等. 基于布里渊放大的非共线四束激光串行组束的研究[J]. 物理学报, 2009, 58(7): 4675-4679.

    Wang Yulei, Lü Zhiwei, Wang Shuangyi, et al.. Investigation on a four-beam serial laser combination for a non-collinear scheme based on Brillouin amplification[J]. Acta Physica Sinica, 2009, 58(7): 4675-4679.

[35] Weiming He, Hongbo Liu, Wuliji Hasi, et al.. Investigation on the noise suppression of Brillouin amplification for weak Stokes signals[C]. ICOM, 2012: 228-231.

[36] Yi Chen, Zhiwei Lu, Yulei Wang, et al.. Phase matching for noncollinear Brillouin amplification based on controlling of frequency shift of Stokes seed[J]. Optics Letters, 2014, 39(10): 3047-3049.

[37] Lü Zhiwei, Bai Zhenxu, Chen Yi, et al.. A serial laser beam combination based on stimulated Brillouin amplification used two-dimensional waveguide type medium cell[P]. China Patent: 201410578271.5, 2014-10-25.

[38] Lü Zhiwei, Bai Zhenxu, Chen Yi, et al.. Non-collinear double-pass amplification method and non-collinear double-pass beam combination device based on stimulated Brillouin scattering[P]. China Patent: 201410577933.7, 2014-10-24.

[39] Hyunmin Park, Changwhan Lim, Hidetsugu Yoshida, et al.. Measurement of stimulated Brillouin scattering characteristics in heavy fluorocarbon liquids and perfluoropolyether liquids[J]. Japanese Journal of Applied Physics, 2006, 45(6A): 5073- 5075.

[40] W L J Hasi, Z W Lu, S Gong, et al.. Investigation of stimulated Brillouin scattering media perfluoro- compound and perfluoropolyether with a low absorption coefficient and high power-load ability[J]. Applied Optics, 2008, 47(7): 1010-1014.

[41] Hidetsugu Yoshida, Villiam Kmetik, Hisanori Fujita, et al.. Heavy fluorocarbon liquids for a phase-conjugated stimulated Brillouin scattering mirror[J]. Applied Optics, 1997, 36(16): 3739-3744.

[42] Viliam KMETIK, Tadashi KANABE, Hisanori FUJITA, et al.. Optical absorption in fluorocarbon liquids for the high energy stimulated Brillouin scattering phase conjugation and compression[J]. Rev Laser Eng, 1998, 26(4): 322-327.

[43] Hidetsugu Yoshida, Hisanori Fujita, Masahiro Nakatsuka, et al.. Fused-quartz glass with low optical quality as a high damageresistant stimulated Brillouin-scattering phase-conjugation mirror[J]. Optics Communications, 2003, 222: 257-267.

[44] David E Bliss, Michael T Valley, Briggs W Atherton, et al.. Phase conjugation of high energy lasers[R]. California: Sandia National Laboratories, 2013.

[45] 朱成禹, 吕志伟, 何伟明, 等. 固体SBS 介质与SBS 相位共扼镜的全固化[J]. 激光与光电子学进展, 2006, 43(3): 65-68.

    Zhu Chengyu, Lü Zhiwei, He Weiming, et al.. Solid SBS media and entirely solidification of the SBS phase-conjugation mirrors [J]. Laser & Optoelectronics Progress, 2006, 43(3): 65-68.

[46] Xiaozhen Xu, Chengyong Feng, Jean-Claude Diels. Optimizing sub-ns pulse compression for high energy application[J]. Optics Express, 2014, 22(11): 13905-13915.

[47] 王昊成, 樊仲维, 余锦, 等. 带SBS 相位共轭镜的高重复频率高功率激光系统研究进展[J]. 激光与光电子学进展, 2014, 51 (4): 040001.

    Wang Haocheng, Fan Zhongwei, Yu Jin, et al.. Research progress of high repetition rate and high power laser with SBS-phase conjugate mirror[J]. Laser & Optoelectronics Progress, 2014, 51(4): 040001.

[48] 何兴道, 徐进军, 史久林, 等. 光学击穿对宽带受激布里渊散射及受激拉曼散射特性的影响[J]. 光学学报, 2012, 32(6): 0619005.

    He Xingdao, Xu Jinjun, Shi Jiulin, et al.. Influences of optical breakdown on wideband SBS and forward SRS[J]. Acta Optica Sinica, 2012, 32(6): 0619005.

[49] 杨雨川, 景峰, 李富全, 等. 用于快点火的激光驱动器组束方式[J]. 强激光与粒子束, 2011, 23(3): 697-701.

    Yang Yuchuan, Jing Feng, Li Fuquan, et al.. Laser driver beam combination for fast ignition[J]. High Power Laser and Particle Beams, 2011, 23(3): 697-701.

[50] 侯睿, 赵尚弘, 胥杰, 等. 组束激光的军事应用前景分析[J]. 激光杂志, 2008, 29(3): 4-5.

    Hou Rui, Zhao Shanghong, Xu Jie, et al.. The analysis of military application foreground of combined laser[J]. Laser Journal, 2008, 29(3): 4-5.

[51] 母杰, 王逍, 景峰, 等. 高功率激光装置中波前畸变对相干合成的影响[J]. 中国激光, 2015, 42(6): 0602010.

    Mu Jie, Wang Xiao, Jing Feng, et al.. Effect of wavefront distortion on coherent beam combination in high-power laser facilities[J]. Chinese J Lasers, 2015, 42(6): 0602010.

[52] Li Sensen, Wang Yulei, Lu Zhiwei, et al.. High-quality near-field beam achieved in a high-power laser based on SLM adaptive beam-shaping system[J]. Optics Express, 2015, 23(2): 681-689.

[53] 焦兆阳, 张艳丽, 张军勇, 等. 终端靶场中相位畸变对近场光束质量的影响[J]. 中国激光, 2014, 41(5): 0502004.

    Jiao Zhaoyang, Zhang Yanli, Zhang Junyong, et al.. Influence of phase distortion on near field beam quality in final target system[J]. Chinese J Lasers, 2014, 41(5): 0502004.

[54] Lü Zhiwei, Li Sensen, Wang Yulei, et al.. A two- sided stereo optical path truss type solid state laser[P]. China Patent: 201410850518.4, 2014-12-30.

[55] Lü Zhiwei, Bai Zhenxu. Modular non-collinear serial beam combination laser based on stimulated Brillouin scattering[P]. China Patent: 201510148102.2, 2015-03-31.