Chinese Journal of Lasers, Volume. 49, Issue 23, 2301002(2022)
Influence of Indium Layer Defects on Temperature Distribution of Innoslab Laser Crystal
[1] Shi S P, Wang Y J, Yang W H et al. Detection and perfect fitting of 132 dB squeezed vacuum states by considering green-light-induced infrared absorption[J]. Optics Letters, 43, 5411-5414(2018).
[2] Lian T H, Yang L, Zhu J H et al. High-peak-power acoustic-optic Q-switched solid-state laser with Hermite-Gaussian modes[J]. Acta Optica Sinica, 42, 0714001(2022).
[3] Kleeman M, Unyime O, Nseyo M D. High-power (80-W) KTP laser vaporization of the prostate in the management of urinary retention: long-term follow up[J]. Proceedings of SPIE, 5312, 82-86(2004).
[4] Zhou S H, Zhao H, Tang X J. High average power laser diode pumped solid-state laser[J]. Chinese Journal of Lasers, 36, 1605-1618(2009).
[5] Du K, Wu N, Xu J et al. Partially end-pumped Nd∶YAG slab laser with a hybrid resonator[J]. Optics Letters, 23, 370-372(1998).
[6] Li M, Hu H, Gao Q S et al. Dual concentration doped Nd∶YAG composite ceramic slab laser with high power[J]. Acta Optica Sinica, 37, 0514003(2017).
[7] Mecseki K, Windeler M K R, Robinson J S et al. Thermal effects in a high repetition rate 88 W average power OPCPA system at 800 nm[J]. Proceedings of SPIE, 10898, 108980M(2019).
[8] Li M, Hu H, Tang C et al. Research on high power slab laser technology with dual doped concentration[J]. Acta Optica Sinica, 36, 0914004(2016).
[9] Russbueldt P, Weitenberg J, Schulte J et al. Scalable 30 fs laser source with 530 W average power[J]. Optics Letters, 44, 5222-5225(2019).
[10] Zhu X B, Duan X C. The present application and future development of indium[J]. Rare Metals and Cemented Carbides, 36, 51-55(2008).
[11] Koechner W[M]. Solid-state laser engineering(2005).
[12] Fan T Y. Heat generation in Nd∶YAG and Yb∶YAG[J]. IEEE Journal of Quantum Electronics, 29, 1457-1459(1993).
[13] Kimura T, Otsuka K. Thermal effects of a continuously pumped Nd3+∶YAG laser[J]. IEEE Journal of Quantum Electronics, 7, 403-407(1971).
[14] Ding X C, Zhang P, Xiong L L et al. Thermal reaction of high power semiconductor laser with voids in solder layer[J]. Chinese Journal of Lasers, 38, 0902006(2011).
[15] Dong X Y, Li P X, Li S et al. High beam quality fiber-solid hybrid Innoslab picosecond amplifier with high repetition rate[J]. Chinese Journal of Lasers, 48, 1701004(2021).
[16] Ma Z, Li D J, Gao J C et al. Thermal effects of the diode end-pumped Nd∶YVO4 slab[J]. Optics Communications, 275, 179-185(2007).
[17] Russbueldt P, Mans T, Rotarius G et al. 400 W Yb∶YAG Innoslab fs-amplifier[J]. Optics Express, 17, 12230-12245(2009).
[18] Shi S X, Zhang H X, Liu J S[M]. Physical optics and applied optics(2000).
[19] Mao Y F[D]. LD end-pumped Innoslab laser, 7-8(2017).
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Yuguang Huang, Yongxi Gao, Jie Guo, Xiaoyan Liang. Influence of Indium Layer Defects on Temperature Distribution of Innoslab Laser Crystal[J]. Chinese Journal of Lasers, 2022, 49(23): 2301002
Category: laser devices and laser physics
Received: Jan. 14, 2022
Accepted: Mar. 21, 2022
Published Online: Nov. 21, 2022
The Author Email: Liang Xiaoyan (liangxy@siom.ac.cn)