Effect of thermal lensing is the main obstacle of getting high power and good beam quality in laser diode (LD)-pumped solid-state lasers.
在高功率激光二极管抽运固体激光器中,热效应已成为获得高输出功率和高光束质量的最大阻碍因素。
The method of individually water cooling of the LD array and the laser crystal is giver after analyzing the thermal effect of high power LD pumped solid-state laser.
重点分析了高功率LD阵列泵浦的固体激光器热效应问题,提出了LD阵列与激光介质分别水冷的方案来解决高功率全固态激光器的热效应问题。
Based on confocal configuration, a laser-induced fluorescence detector using laser diode double-pumped solid-state laser (LD-DPSSL) as excitation source is described.
以半导体激光泵浦-固体激光器为激发光源,采用共聚焦光学结构,研制了一种小型化激光诱导荧光检测器。
A mathematic model of the pump power absorption and distribution in the LD side pumped solid state laser medium is set up.
通过对激光二极管(LD)侧面抽运激光介质的分析研究,建立了二极管侧面抽运激光介质所吸收的抽运光功率分布的数学模型。
First of all , LD-pumped All-solid-state blue and green laser is now the scientific project which most national department have spent much money to study in .
其中LD泵浦的全固体蓝绿激光器是国际上众多家机构花重金争相开展的科研项目。
Laser techniques is surging with LD-pumped solid-state laser. But, the stability, model and beam quality of the laser are strongly affected by the thermal lens effect at high power.
LD泵浦固体激光器出现使激光器得到飞速发展,但是其在大功率运行时所表现出的强烈的热透镜效应,严重影响了激光器的稳定性和输出光的模式、光束质量。
Gentle zones were found in all output power curves of laser-diode (LD) side-pumped solid-state lasers.
在所有激光二极管(LD)侧面抽运的固体激光器的输出功率曲线中都存在一个平缓区域。
Gentle zones were found in all output power curves of laser-diode (LD) side-pumped solid-state lasers.
在所有激光二极管(LD)侧面抽运的固体激光器的输出功率曲线中都存在一个平缓区域。
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