Characterization of Er3 + 2.79 μm rotating mirror Q-switched laser

Hao-bo WEI; Qiang GUO; Cheng-jun ZHU; Dun-lu SUN; Jian-qiao LUO; Xin YI

doi:10.3969/j.issn.1007-5461.2014.05.008

Journals >Chinese Journal of Quantum Electronics >Volume 31 >Issue 5 >Page 563 > Article

Chinese Journal of Quantum Electronics
Vol. 31, Issue 5, 563 (2014)

Characterization of Er3 + 2.79 μm rotating mirror Q-switched laser

Hao-bo WEI^1、2、*, Qiang GUO^1、2, Cheng-jun ZHU^1、2, Dun-lu SUN^1、2, Jian-qiao LUO^1、2, and Xin YI^1、2

Author Affiliations

¹[in Chinese]

²[in Chinese]

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DOI: 10.3969/j.issn.1007-5461.2014.05.008 Cite this Article

WEI Hao-bo, GUO Qiang, ZHU Cheng-jun, SUN Dun-lu, LUO Jian-qiao, YI Xin. Characterization of Er3 + 2.79 μm rotating mirror Q-switched laser[J]. Chinese Journal of Quantum Electronics, 2014, 31(5): 563 Copy Citation Text

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Abstract

2.7～3μm laser, which has the important value of medical and military applications, are obtained from the transition 4I11/2 →4I13/2 with rare earth Er3 + as the active ions and YSGG, GGG, GSGG, YAG, YLF as the matrix material. Under 790 nm pump, the Er:YSGG as laser material can produce 2.79 μm stimulated emission. By building the rate equation of Er:YSGG energy level transition, the system characteristics of rotating mirror Q-switched laser were analyzed and numerical simulations were carried out. Result of the numerical simulations comprehensively shows the influence of system variables on the performance of rotating mirror Q-switched laser. These conclusion will provide theoretical guidance for the laser design and improvement of similar experiment.

Keywords

laser techniques numerical simulations rate equation rotating mirror Q-switched

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