[1] Sawruk N W, Burns P M, Edwards R E, et al. ICESat2 laser Nd: YVO4 amplifier[C]SPIE, 2018, 10513: 105130X.
[2] Peibei Meng, Fanjiang Yan, Xu Li, et al. Influence of boundary condition and pump scheme on thermal effects of laser crystal. Infrared and Laser Engineering, 44, 3216-3222(2015).
[3] Xiangchun Shi, Weibiao Chen, Xia Hou. Application of all solid state laser in space. Infrared and Laser Engineering, 34, 127-131(2005).
[4] Yong Cheng. Development and progress of adjust-free solid state laser. Infrared and Laser Engineering, 35, 297-301(2006).
[5] P R Stysley, D B Coyle, R B Kay, et al. Long term performance of the High Output Maximum Efficiency Resonator (HOMER) laser for NASA's Global Ecosystem Dynamics Investigation (GEDI) lidar. Optics & Laser Technology, 68, 67-72(2015).
[6] Qin Dai, Shanchun Zhang, Fan Yang, et al. Research on the high beam quality of Gaussian unstable resonators in solid state lasers. Chinese Optics, 12, 559-566(2019).
[7] Lu Zou, Qian Jin, Ping Zhou, et al. Unstable resonator design for high power solid-state laser. Ordnance Industry Automation, 33, 16-19(2014).
[8] Kuohu Li, Jingjie Ma. Mode analysis of the circular piano-concave resonator with a deformed Gaussian-reflectivity mirror. Optical Technique, 36, 192-195(2010).
[9] Wentao Wang, Yang Liu, Chao Wang, et al. Study on beam-quality of slab laser by the usage of Gaussian mirrors. Laser & Infrared, 42, 980-982(2012).
[10] Xu Liu, Xiaobing Wang, Yong Cheng, et al. Design of diode pumped all-solid-state laser for SLA. Infrared and Laser Engineering, 37, 794-800(2007).
[11] Canzhao Wang, Li Li, Wendong Shang, et al. Study on pulsed solid-state lasers with positive branch confocal unstable resonators. Laser Technology, 37, 441-444(2013).
[12] Peibei Meng, Wenzong Shi, Fanjiang Yan, et al. Influence of resonator misalignment on performance of diode-pumped Nd:YAG laser. Infrared and Laser Engineering, 46, 0605001(2017).