光纤激光器相应的斜率效率分别为60%和48%。
光光斜率效率达19%,明显高于同等情况下非球面透镜聚光的效果。
The optical-optical slope efficiency is 19% which is much higher than that of the focusing of non-sphere Lens under the same conditions.
通过准三能级系统的速率方程,分析了激光系统的抽运阈值和斜率效率。
The threshold pump power and slope efficiency were discussed by using the quasi-three-level rate equations.
理论计算了泵浦阈值、斜率效率,获得了增益开关的数值解结果,与实验基本一致。
Theoretical analysis for the threshold, the slope efficiency and the gain-switching of the solid laser pumped by a laser diode was presented.
获得了激光器的阈值泵浦功率、输出功率。斜率效率以及最佳掺铒光纤长度的解析解。
Analytic solutions for the threshold pump power, the output power, the slope efficiency and optimum erbium-doped fiber length of EDFL are obtained.
输出镜反射率在50%和30%情况下,分析了单个激光器和激光器阵列的斜率效率。
Under the output mirror with the different reflectivity of 50% and 30% condition, the slope efficiencies of the individual laser and the laser array are analyzed.
针对直线生成算法在直线斜率大于0.5时的低效率问题,提出一种基于像素链的直线绘制算法。
In order to increase the efficiency of the line drawing algorithm when the slope of the line is greater than 0.5, a line drawing algorithm based on pixel chain was proposed.
针对直线生成算法在直线斜率大于0.5时的低效率问题,提出一种基于像素链的直线绘制算法。
In order to increase the efficiency of the line drawing algorithm when the slope of the line is greater than 0.5, a line drawing algorithm based on pixel chain was proposed.
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