[2] Goodno G D, Palese S, Harkenrider J. Yb:YAG power oscillator with high brightness and linear polarization[J]. Optics Letters, 26, 1672-1674(2001).
[4] Marmo J, Injeyan H, Komine H, et al. Joint high power solid state laser program advancements at Nthrop Grumman[C]Proc of SPIE. 2009: 7195071.
[5] Chen Xiaoming, Xu Liu, Hu Hao. High efficiency, high-average-power, CW Yb:YAG zigzag slab MOPA at room temperature[J]. Optics Express, 24, 24517-24523(2016).
[6] Li Mi, Hu Hao, Wang Juntao. A 7.08-kW YAG/Nd:YAG/YAG composite ceramic slab laser with dual concentration doping[J]. IEEE Photonics Journal, 9, 1503010(2017).
[7] Xu Liu, Wu Yingchen, Du Yinglei. High brightness laser based on Yb:YAG MOPA chain and adaptive optics system at room temperature[J]. Optics Express, 26, 14592-14600(2018).
[8] Bruesselbach H W, Sumida D S, Reeder R A. Low-heat high-power scaling using InGaAs-diode-pumped Yb:YAG lasers[J]. IEEE J Sel Top Quantum Electron, 3, 105-115(1997).
[10] Casagrande O, Robin N D, Garrec B L. Time and spectrum resolved model for quasi-three-level gain-switched lasers[J]. IEEE Journal of Quantum Electronics, 43, 206-212(2007).
[11] Fan T Y, Ripin D J, Roshan L. Cryogenic Yb3+ doped solid state lasers[J]. IEEE J Sel Top Quantum Electron, 13, 448-459(2007).
[12] Ganija M, Ottaway D J, Veitch P J, et al. Cryogenic, conduction cooled, end pumped, zigzag slab laser, suitable f power scaling[C]Conference on Lasers ElectroOptics (CLEO). 2012.