[1] Huang Wei, Zhu Jianguo. Research progress on preparing methods of yttrium aluminum garnet laser ceramics［J］. Journal of Sichuan University (Natural Science Edition), 2005, 42(s2): 138-141.

[3] Duan Y M, Zhu H Y, Zhang G, et al. Efficient 559.6 nm light produced by sum-frequency generation of diode-end-pumped Nd∶YAG/SrWO4 Raman laser［J］. Laser Physics Letters, 2010, 7(7): 491-494.

[4] Yamamoto K Y, Cremers D A, Foster L E, et al. Laser-induced breakdown spectroscopy analysis of solids using a long-pulse (150 ns) Q-switched Nd∶YAG laser［J］. Applied Spectroscopy, 2005, 59(9): 1082-1097.

[5] Li L F, Zheng X L, Chen X M, et al. High-power diode-side-pumped Nd∶YAG solid laser mode-locked by CVD graphene［J］. Optics Communications, 2014, 315: 204-207.

[6] Li Jiang, Wu Yusong, Pan Yubai, et al. Solid-state-reaction fabrication and properties of high-doping Nd∶YAG transparent laser ceramic［J］. Journal of the Chinese Ceramic Society, 2007,35(12):1600-1604.

[7] Lu J, Prabhu M, Song J, et al. Optical properties and highly efficient laser oscillation of Nd∶YAG ceramics［J］. Applied Physics B: Lasers and Optics, 2000, 71(4): 469-473.

[8] Quan Jiliang, Xie Zhiwei, Yang Yuanzheng, et al. Study on the cracking and defects of Nd∶YAG laser crystal［J］. Chinese Journal of Quantum Electronics, 2010, 27(3): 270-275.

[9] Li Mi, Hu Hao, Gao Qingsong, et al. Dual concentration doped Nd∶YAG composite ceramic slab laser with high power［J］. Acta Optica Sinica, 2017, 37(5): 0514003.

[10] Qu Pengfei, Wang Shiyu, Shao Xinzheng, et al. Temperature stability of Nd∶YAG/Nd∶YVO4 combination crystals laser［J］. Acta Optica Sinica, 2017, 37(6): 0614001.

[11] Ikesue A. Polycrystalline Nd∶YAG ceramics lasers［J］. Optical Materials, 2002, 19(1): 183-187.

[12] Lee S H, Kochawattana S, Messing G L, et al. Solid-state reactive sintering of transparent polycrystalline Nd∶YAG ceramics［J］. Journal of the American Ceramic Society, 2006, 89(6): 1945-1950.

[13] Ikesue A, Kamata K, Yoshida K. Effects of neodymium concentration on optical characteristics of polycrystalline Nd∶YAG laser materials［J］. Journal of the American Ceramic Society, 1996, 79(7): 1921-1926.

[14] Ikesue A, Yoshida K, Yamamoto T, et al. Optical scattering centers in polycrystalline Nd∶YAG laser［J］. Journal of the American Ceramic Society, 1997, 80(6): 1517-1522.

[15] Pan Yubai, Xu Jun, Wu Yusong, et al. Fabrication and laser output of Nd∶YAG transparent ceramic［J］. Journal of Inorganic Materials, 2006, 21(5): 1278-1280.

[16] Ding X, Chen N, Sheng Q, et al. All-solid-state Nd∶YAG laser operating at 1064 nm and 1319 nm under 885 nm thermally boosted pumping［J］. Chinese Physics Letters, 2009, 26(9): 094207.

[17] Zhang Jian, Zhang Qingmao, Chen Guo, et al. Nd∶YAG pulsed laser double-pass time-sharing multiplexing system［J］. Laser & Optoelectronics Progress, 2013, 50(1): 011402.

[18] Li Mi, Hu Hao, Tang Chun, et al. Edge distortion suppressing in Nd∶YAG slab laser［J］. Acta Optica Sinica, 2016, 36(12): 1214003.

[19] Li Jian, He Jingliang, Hou Wei, et al. Influence of the Nd3+-doped concentration on the output performance of a high-power all-solid-state Nd∶YVO4 laser［J］. Chinese J Lasers, 2000, 27(4): 298-302.

[20] Fan T Y, Byer R L. Diode laser-pumped solid-state lasers［J］. IEEE Journal of Quantum Electronics, 1988,24(6): 895-912.

[21] Zhang Hongrui, Gao Mingyi, Zheng Yi, et al. Performance of Nd∶YVO4 laser with lower Nd3+ dopped concentration［J］. Laser & Infrared, 2003, 33(2): 115-117.