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 paper summarizes the nonlinearity and heat effect in double-clad fiber laser with high power.
文章综述了大功率情况下双包层光纤激光器中的非线性和热效应。
Q system, adjustable import acoustooptic light effect is good, light lock loss, high power output for a long time, ensure the stability of laser system.
进口声光调q系统,锁光效果好,光损耗小,输出功率高,确保激光系统长时间稳定工作。
Since TEC has the disadvantage of limited power and low efficiency, the cooling effect is not as effective as expected when used to control the temperature of high-power laser diodes.
TEC存在功率有限、制冷效率低的问题,在用于大功率半导体激光器的温度控制时,常常无法达到所需的制冷效果。
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。
Thermal effect is a fundamental issue for a high power solid state heat capacity laser.
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。
The resin films of coated sand will be overheated and carbonized while the coated sand is scanned by the laser with a high enough power, and thus lose the binding effect.
用激光扫描覆膜砂,当激光功率足够大时,覆膜砂的树脂膜会发生过烧和炭化而失去粘结作用。
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。
The effect of obscuration can't be ignored in the high-power solid laser equipment, and we have found the destruct of obscuration to the actual equipment.
高功率固体激光装置中散射点的影响不可忽略,在实际的装置中已经看到由散射点引起的破坏。
The nonlinear hot image effect of high-power broadband pulsed laser beam has been investigated theoretically and numerically.
通过理论分析与数值模拟方法,研究了高功率激光系统中非线性热像位置及光强随介质厚度的变化规律。
The nonlinear hot image effect of high-power broadband pulsed laser beam has been investigated theoretically and numerically.
通过理论分析与数值模拟方法,研究了高功率激光系统中非线性热像位置及光强随介质厚度的变化规律。
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