[1] KRISHNAJA D, CHEEPU M, VENKATESWARLU D. A review of research progress on dissimilar laser weld-brazing of automotive applications[C], 012073(2018).

[2] SALAMIN Y I, HARMAN Z, KEITEL C H. Direct high-power laser acceleration of ions for medical applications[J]. Physical Review Letters, 100, 155004-1-4(2008).

[3] XU Y T, XU J L, CUI Q J et al. High efficiency multi-kW diode-side-pumped Nd∶YAG laser with reduced thermal effect[J]. Chinese Physics Letters, 27, 024201-1-3(2010).

[4] LI Pengju, PAN Deng, LIU Shunli. Continuous cubic phase plate with long depth of focus fabricated by femtosecond laser and its optical performance[J]. Optics and Precision Engineering, 30, 2088-2093(2022).

[5] HU Linting, LI Peijun, YAO Zhijun. Improvement of the measuring distance of repetitive-frequency laser spot in field[J]. Chinese Journal of Liquid Crystals and Displays, 31, 1137-1142(2016).

[6] MARTIN W S, CHENOCH J P. Multiple interal refraction face pumped laser[P].

[7] ZHU Guangzhi, ZHU Xiao, ZHU Changhong et al. Thermal effect study of LD edge-pumped slab lasers[J]. Chinese Journal of Lasers, 36, 37-42(2009).

[8] MACHAN J P, LONG M H, ZAMEL J J et al. 5.4 kW diode-pumped, 2.4×diffraction-limited Nd: YAG laser for material processing[C], 549(2002).

[9] INJEYAN H, GOODNO G D[M]. High power laser handbook, 187-204(2011).

[10] LI Xia, LIU Hong, WANG Jiyang et al. Progress in transparent polycrystalline aluminum-yttrium garnet laser ceramic[J]. Journal of the Chinese Ceramic Society, 32, 485-489(2004).

[11] YANG Haolin, CHNE Yue, JIA Fu et al. Research progress in ceramic lasers[J]. Laser & Optoelectronics Progress, 57, 142-162(2020).

[12] LI Jiang, TIAN Feng, LIU Ziyu. Research progress and prospect of mid-infrared laser ceramics[J]. Journal of Synthetic Crystals, 49, 1467-1487(2020).

[13] SOKOL M, KALABUKHOV S, KASIYAN V et al. Mechanical, thermal and optical properties of the SPS-processed polycrystalline Nd: YAG[J]. Optical Materials, 38, 204-210(2014).

[14] KAMINSKII A A, AKCHURIN M S, GAINUTDINOV R V et al. Microhardness and fracture toughness of Y2O3- and Y3Al5O12-based nanocrystalline laser ceramics[J]. Crystallography Reports, 50, 569-873(2005).

[15] IKESUE A, KINOSHITA T, KAMATA K et al. Fabrication and optical properties of high-performance polycrystalline Nd: YAG ceramics for solid state lasers[J]. Journal of the American Ceramic Society, 78, 1033-1040(1995).

[16] LU J, UEDA K, YAGI H et al. Neodymium doped yttrium aluminum garnet (Y3Al5O12) nanocrystalline ceramics-A new generation of solid state laser and optical materials[J]. Journal of Alloys and Compounds, 341, 220-225(2002).

[17] YAMAMOTO R M, BHACHU B S, CUTTER K P et al. The use of large transparent ceramics in a high powered, diode pumped solid state laser[J]. Advanced Solid-State Photonics, 27-30(2008).

[18] LEI Xiaoli, SUN Ling, LIU Yang et al. Laser with 100 kW output power developed by the Textron company[J]. Laser & Infrared, 41, 948-952(2011).

[19] CHEN Yahui, ZHOU Yong, ZONG Nan et al. Domestic Nd: YAG transparent ceramics realize 10.0W laser output[J]. Chinese Journal of Lasers, 34, 660(2007).

[20] LI C Y, BO Y, WANG Y B et al. A kilowatt level LD-side-pumped QCW Nd: YAG ceramic laser[J]. Optics Communications, 283, 5145-5148(2010).

[21] SHEN Y, BO Y, ZONG N et al. Experimental and theoretical investigation of pump laser induced thermal damage for polycrystalline ceramic and crystal Nd: YAG[J]. IEEE Journal of Selected Topics in Quantum Electronics, 21, 160-167(2015).