对薄片激光器的热效应进行了分析,从理论上得出了薄片的热焦距表达式。
Thermal effect of thin disk laser is analyzed. Thermal focal length expression is carried out theoretically.
介绍了能够实现高平均功率的两种固体激光器:固体薄片激光器和固体热容激光器。
Thermal effect is a fundamental issue for a high power solid state heat capacity laser.
对薄片激光器的谐振腔进行了设计,采用平凹腔的结构,并使其在稳区工作并有较大的基模体积。
Resonator cavity of thin disk laser is designed, using plane-concave cavity to make it work stably and obtain large fundamental mode volume.
对薄片激光器的输出特性进行了分析,设计了相关参数,并在此参数下得出了光束质量、输出功率和转换效率的理论值。
Characteristics of thin disk laser are analyzed. By using some relevant parameters, we obtain numerical values of beam quality, output power and conversion efficiency.
激光介质的热效应是高平均功率固体激光器面临的最大挑战,采用薄片激光介质是解决热效应的有效手段之一。
The key challenge for developing high-average power solid-state lasers is thermomechanical distortions caused by waste heat deposited in the gain medium by optical pumping.
激光介质的热效应是高平均功率固体激光器面临的最大挑战,采用薄片激光介质是解决热效应的有效手段之一。
The key challenge for developing high-average power solid-state lasers is thermomechanical distortions caused by waste heat deposited in the gain medium by optical pumping.
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