本文简介一种输出能量最大相对误差小于2%的红宝石激光器及其结构特点。
This paper simply introduces a ruby laser with max. relative error of output energy< 2% and it's features about construction.
这两种微动力机电系统在结构和工作原理上有较大差异,但是都具有微型燃烧室,都需要一个良好的燃烧系统保证高能量输出。
Despite of great differences in their structures and work theory, they all have a micro-firebox and need a good combustion system to ensure a high energy density.
传统同位素微电池的能量转换结构采用单层阵列形式,造成电池输出功率较小,不能满足微型传感器件的需求。
Traditional Radioisotope micro Battery (RMB) with direct conversion device of single layer array does not meet the requirements of micro sensor devices for its lower output power.
全固态双波长激光器更为重要,因为它结构紧凑、小型化,可以提供更大的输出能量,而且可以覆盖更宽的波段。
Solid state dual wavelength lasers are more important because it is compact and miniaturization, which can provide high output power and the band it covers is more important.
依照调谐元件和腔结构参数来计算激光输出线宽、单脉冲输出能量,并由此来选择激光器的结构设计。
Output linewidth and energy in single pulse of laser is computed by using parameter of tunable elements and cavity construction, and the construction design is based on it.
输出的光束质量较好,为准单模输出。该光纤放大器输出脉冲能量高,具有全光纤化、结构简单的特点。
A near diffraction limited beam was produced from the amplifier with quasi-single mode output... the results shows that the high pulse energy fiber laser has advantage of simple all fiber structure.
在同一控制能量下,基于输出反馈的控制效果优于状态反馈,说明了智能隔震结构采用输出反馈的合理性。
With equal control energy, the effect of output feedback exceeds state feedback, which shows the rationality of using output feedback in smart isolated structure.
实验结果表明,此激光器的单脉冲能量比单Q开关结构的非补偿腔输出能量高出74.7%。
The experimental results show that, in the same situation, the pulse energy of the improved laser is 74.7% higher than that of original one.
实验结果表明,此激光器的单脉冲能量比单Q开关结构的非补偿腔输出能量高出74.7%。
The experimental results show that, in the same situation, the pulse energy of the improved laser is 74.7% higher than that of original one.
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