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In this work, non-isothermal bleaching of Yb–Li co-doped fiber was investigated. The Yb–Li co-doped fiber was beneficial to reduce the photodarkening-induced excess loss and had no bad effect on the temperature of thermal bleaching(TB). Photodarkened fibers were bleached with different temperature ramp rates. The higher the ramp rate, the higher the complete bleaching temperature. The activation energy of the bleaching of Yb/Al/Li fiber was calculated by fitting, which was similar to that of an Yb-doped fiber. These observations are helpful in revealing the relationship between the mechanism of Li ion co-doping and TB. 相似文献
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非稳腔DF激光窗口热效应及其对远场光斑的影响 总被引:11,自引:5,他引:6
以非稳腔DF激光器CaF_2输出窗口为例计算了不同输出功率情况下,窗口材料的温升、相应的波前位相变化以及有扩束系统和无扩束系统两种情况下,远场光斑所受的影响,给出了数值计算结果。 相似文献
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光纤耦合半导体激光器(LD)泵浦的光纤激光放大器具有体积小、功质比高、稳定性好等优点,在工业加工和军事国防等诸多领域都有着广泛且重要的应用。然而,受限于器件制作工艺水平及光纤中的受激拉曼效应和模式不稳定效应,LD泵浦的光纤激光放大器难以同时实现高功率及高亮度激光输出。为实现更高功率、更高亮度的光纤激光输出,需要结合现有的器件工艺水平并同时实现对放大器中的受激拉曼散射效应和模式不稳定效应的有效抑制。报道了基于单位自研大模场增益光纤成功实现13 kW功率、高光束质量激光输出。激光器采用主振荡功率放大结构,放大级采用单后向981 nm泵浦自研大模场增益光纤,在总泵浦功率为15 kW时,输出功率达到12.94 kW,光束质量M2因子约为2.85。通过进一步优化器件性能及光纤模式控制,有望实现更高功率、更高亮度的光纤激光输出。 相似文献
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高功率高光束质量光纤激光器在工业加工等领域有着广泛的应用,然而光纤中的非线性效应和模式不稳定效应限制着高光束质量光纤激光器的功率提升,采用新型结构大模场增益光纤在同时抑制非线性效应和模式不稳定效应方面具有较大潜力。报道了基于单位自研的纺锤形渐变掺镱光纤激光成功实现6 kW功率、高光束质量激光输出。激光器采用主振荡功率放大结构,放大级采用双向981 nm泵浦纺锤形渐变掺镱光纤,在总泵浦功率为7.68 kW时,输出功率达到6.02 kW,光束质量M2因子约为1.9。通过进一步优化纺锤形掺镱光纤制作工艺及结构参数,有望实现更高功率、近单模光束质量的光纤激光输出。 相似文献
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A high-power fiber laser in an all-fiber format is reported. The system consists of 36 pump ports, which use both counter and forward pump configuration. In the experiment, 1 008-W output power is obtained when 24 pump ports are used with a total pump power of 1477 W. The optical-to-optical conversion efficiency is 68% and the 3-dB bandwidth of laser output increases with output power. Presently, the output power is only limited by the pump source. It can be predicted that the laser power can be further scaled if more pump sources are utilized. 相似文献
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采用连续波红外激光对可见光面阵CCD成像系统进行了干扰实验,观察到饱和串扰、全屏饱和等干扰现象,并测到串扰阈值小于2.0×102W/cm2,全屏饱和阈值为1.2×104W/cm2。通过分析CCD输出电压、视频信号,提出基于有效干扰面积的干扰效果评估方法,并利用该方法对干扰面积与激光功率密度、辐照时间之间的关系进行了半定量分析。结果显示:激光功率密度对干扰效果的影响较大,而辐照时间在0.5~2.0 s之间时,辐照时间对CCD干扰效果的影响不明显。 相似文献