[1] [1] WANG Xiaopeng. Military optoelectronic technology system introduction[M]. Beijing: National Defense Industry Press, 2011: 217228.

[2] [2] [2]梁薇, 张科精确制导武器发展及其关键技术火力与指挥控制200833125710.3969/j.issn.1002-0640.2008.12.002LIANGWei, ZHANGKeDevelopment and key technologies of precise-guidance weaponFire Control and Command Control200833125710.3969/j.issn.1002-0640.2008.12.002

[3] [3] [3]杨爱粉, 李刚, 王亮, 等激光综合应用系统分析应用光学201637347648110.5768/JAO201637.0307001YANGAifen, LIGang, WANGLiang, et alAnalysis on laser comprehensive application systemsJournal of Applied Optics201637347648110.5768/JAO201637.0307001

[4] [4] [4]刘尚富, 胡辉国外激光雷达的发展趋势舰船电子工程20173761410.3969/j.issn.1672-9730.2017.06.001LIUShangfu, HUHuiDevelopment trend of foreign laser radarShip Electronic Engineering20173761410.3969/j.issn.1672-9730.2017.06.001

[5] [5] [5]延新杰, 李磊1 064 nm/532 nm双波长自由切换输出激光器光电技术应用2015306373910.3969/j.issn.1673-1255.2015.06.009YANXinjie, LILei1 064 nm and 532 nm dual-wavelength switchable solid state laserElectro-Optic Technology Application2015306373910.3969/j.issn.1673-1255.2015.06.009

[6] [6] [6]樊仲维, 邱基斯, 康治军, 等百赫兹3.36 J高光束质量Nd∶YAG全固态纳秒激光器中国激光2016434261FANZhongwei, QIUJisi, KANGZhijun, et alHundred hertz 3.36 J high beam quality Nd:YAG all solid state nanosecond laserChinese Journal of Lasers2016434261

[7] [7] [7]樊仲维, 邱基斯, 唐熊忻, 等用于空间碎片探测的百赫兹3.31 J高光束质量全固态Nd: YAG激光器物理学报201766505420510.7498/aps.66.054205FANZhongwei, QIUJisi, TANGXiongxin, et alA 100 Hz 3.31 J all-solid-state high beam quality Nd: YAG laser for space debris detectingActa Physica Sinica201766505420510.7498/aps.66.054205

[8] Chaoyang LI, Chengqiang LU, Chuan LI et al. 2.36 J, 50 Hz nanosecond pulses from a diode side-pumped Nd: YAG MOPA system. Optics Communications, 394, 1-5(2017).

[9] [9] [9]靳全伟, 庞毓, 蒋建锋, 等VRM腔高光束质量高功率双波长激光器红外与激光工程20184711117121JINQuanwei, PANGYu, JIANGJianfeng, et alHigh beam quality and high power dual-wavelength laser with VRMInfrared and Laser Engineering20184711117121

[10] [10] KOECHNER W. Solidstate laser engineering[M]. Beijing:Science Press, 2002: 273291.

[11] [11] YAN Xuejing. Research on airbne Qswitched Nd: YAG laser technology[D]. Beijing: China Academy of Engineering Physics, 2018.

[12] Jianquan YAO. New progress on all solid state laser technology in China. Optics & Optoelectronic Technology, 5, 1-10(2007).

[13] [13] JIANG Bo. Research on the all solidstate laser irradiat[D]. Beijing: Tsinghua University, 2016.

[14] [14] QI Lingfei. Research on thermal effect of laser diodepumped all solid state laser crystal[D]. Jinan: Shong Nmal University, 2014.

[15] [15] ZHOU Bingkun. Laser principle[M]. 4th ed. Beijing: National Defense Industry Press, 2000: 220230.

[16] [16] State Bureau of Quality Technical Supervision of the People''s Republic of China. Measurement methods f main parameter of solidstate lasers: GBT 15175—2012[S]. Beijing: Stards Press of China, 2013.