如果机器和人都没有接收到他们需要的信息,即使拥有最大功率的激光机和最有效的原材料处理系统也是无济于事的。
The most high-powered laser and efficient material handling system don’t count for much if both machines and people can’t access the information they need.
但它的一个缺点就是,激光功率从零升到最大值的过程,会使粒子或X射线束具有一定的能谱分布。
One shortcoming of these beams is that they typically have a range of energy, caused by the gradual rise of laser power from zero to its maximum level.
结果表明:激光功率的增加更有利于最大焊接速度的提高,只有合理的工艺参数组合才能取得良好的焊缝成形。
The results show that increasing laser power is more beneficial to the increase of maximum welding speed and the effect of the welding parameters on the weld shaping is evident.
采用CO2激光切割模切板,研究激光功率、切割速度、焦点位置等参数和切割深度之间的相互关系,研究如何确定最大切割速度和优化切割速度。
CO2 lasers is conducted to cutting die - board with the aim of discussing the relationship between cutting depth and parameters such as laser power, cutting speed and focal position.
双包层光纤激光器是目前研制出的功率最大的光纤激光器,它的激光输出功率可达几百瓦。
Double cladding fiber laser is the one that outputs maximum power currently, whose output power can approach to hundreds watt.
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。
Effect of thermal lensing is the main obstacle of getting high power and good beam quality in laser diode (LD)-pumped solid-state lasers.
进一步分析发现激光功率对接头强度的影响最大,焊接速度的影响仅次于激光功率,离焦量的影响最小。
And it is observed that laser power is the ultimate affection of joint strength, the defocusing amount is the weak influence, and the welding speed between the former affection factor.
概述了高功率光纤激光器的关键技术,并介绍了通过实验使光纤激光器获得最大输出功率6.02W。
The technologies of high-power fiber laser are summarized, and a CW fiber laser with output power of 6.02W was demonstrated experimentally.
通过适当调节最大限制电流或采样电阻,该电流源可应用于各种型号的中小功率半导体激光器。
The precision LD current driver can be used in many kinds of small-medium power LD by adjusting the maximum limited current or the sampling resistance.
通过对四能级均匀加宽激光器单频功率的分析得到最大单频输出功率的简化解析结果;
A simplified analytical expression of maximum single frequency output is obtained by the analysis of a homogeneously broadened four-level system;
本文详细介绍了一台最大输出功率为37w的二极管侧面泵浦连续固体激光器。
With a diode maximum output power 37w CW a diode side pumped solid state Nd: YAG laser is presented in this paper.
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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