可调谐的混合Ho:YAG激光器

CLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference Pub Date : 2009-06-14 DOI:10.1109/CLEOE-EQEC.2009.5194747

J. Kwiatkowski, L. Gorajek, J. Jabczynski, W. Zendzian, H. Jelínková, J. Šulc, M. Němec, P. Koranda

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引用次数: 0

摘要

高效、高能量的Ho:YAG激光器可以通过Tm:晶体激光器(参见示例[1])或与Tm:光纤激光器应用混合概念进行共振泵浦[2,3]。本文的目的是研究Tm:光纤激光器泵浦Ho:YAG晶体的紧凑混合激光器可调谐工作的可行性。建立了内部有增益介质和色散元件的简单线性腔体。将直径为4 mm、长为20 mm的1% Ho:YAG棒与AR宽带涂层安装在水冷铜散热器内。抽运是通过在1920nm波长处发射高达20w的Tm光纤激光器实现的。继电光学系统后，泵浦光束被聚焦到直径0.33 mm的光斑上。将Ho:YAG晶体置于近半同心腔内平面二向镜(HR@2000 -2200 nm, HT@1900 nm)附近。为了获得增益介质中泵浦模式与激光模式的最佳匹配，对腔长进行了设置。输出耦合器为弯曲镜面(r=−150 mm)，在2000 ~ 2150 nm范围内具有95%的反射率。在非激光条件下，20mm长Ho:YAG棒的吸收效率随泵浦功率的变化而变化(4-W泵浦功率为50%，对应阈值为1-W泵浦为76%)。激光调谐采用一块2.1 mm厚的石英板，采用布鲁斯特角倾斜的Lyot滤波器。

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Tuneable, hybrid Ho:YAG laser

The efficient, high energy Ho:YAG lasers can be resonantly pumped by Tm:crystalline lasers (see e.g. [1]) or applying hybrid concept with Tm:fiber lasers [2,3]. The aim of this work was to examine feasibility of tuneable work of compact hybrid laser based on Ho:YAG crystal pumped by Tm:fiber laser. The simple linear cavity with gain medium and dispersive element inside was set up. The 1% Ho:YAG rod of 4-mm diameter and 20-mm length with AR broadband coating was mounted inside water cooled copper heatsink. The pumping was realized by the Tm:fiber laser emitting up to 20 W at 1920-nm wavelength. After relay optical system the pump beam was focused to 0.33-mm diameter spot in the waist. The Ho:YAG crystal was placed in the vicinity of flat dichroic mirror (HR@2000–2200 nm, HT@1900 nm) inside a near semi-concentric cavity. The cavity length was set to obtain the best mode matching between pump and laser mode in gain medium. The output coupler was curved mirror (r=−150 mm) with 95% reflectance in 2000–;2150 nm range. In non-lasing condition the absorption efficiency of 20-mm long Ho:YAG rod has changed with pump power (50% for 4-W pump power up to 76% for 1-W pump corresponding to threshold). For laser tuning a Lyot filter consisted of Brewster angle tilted one quartz plate with 2.1-mm thickness was applied.

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CLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference

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