1kHz, Er3+/Yb3+:玻璃被动调q微芯片激光器,长时间稳定工作

Huaimiao Sun, Zejun Li, Zhanda Zhu, Yongling Hui, H. Lei, Qiang Li
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摘要

LD泵浦铒玻璃被动调q 1.5μm微芯片激光器是激光测距和成像应用的研究热点。高重复率微芯片激光器存在严重的热效应问题,难以长期稳定工作。本文报道了一种采用双端无胶粘剂键合技术的铒镱共掺磷酸盐玻璃被动调q 1535nm激光器。该激光器将YAG晶体、Er3+/Yb3+:玻璃和Co2+[/sup: MgAl2O4键合在一起,提高了激光器的热效应。同时,通过优化泵浦光斑的大小、可饱和吸收体的初始透过率T0和输出反射镜的反射率R,提高了泵浦光的利用效率,进一步降低了热效应的影响。结果表明,在重复频率为1kHz、单脉冲能量为40μJ、脉冲宽度为8ns、峰值功率为5kW、光束质量为1.4的条件下,激光器可长时间稳定输出。
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1kHz, Er3+/Yb3+: glass passively Q-switched microchip laser with long time stable operation
LD pumped erbium glass passively Q-switched 1.5μm microchip laser is a research hotspot in laser ranging and imaging application. The high repetition rate microchip laser has serious thermal effect problem, so it is difficult to work stably for a long time. This paper reports a passively Q-switched 1535nm laser with erbium-ytterbium co-doped phosphate glass using double-ended adhesive-free bonding technology. The laser combines YAG crystal, Er3+/Yb3+: glass and Co2+[/sup : MgAl2O4 by bonding to improve the thermal effect of the laser. At the same time, by optimizing the size of the pump light spot, the initial transmittance T0 of the saturable absorber and the reflectivity R of the output mirror, the utilization efficiency of the pump light is improved and the influence of thermal effect is further reduced. The results show that the laser output with the repetition rate of 1kHz, the single pulse energy of 40μJ, pulse width of 8ns, peak power of 5kW, beam quality of 1.4, can output stably for a long time.
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