这些泵浦源可产生相同或不同的波长的光。
The pumps may generate light of the same wavelength or of different wavelengths.
泵浦系统是小型高效率开关型反激式脉冲泵浦源。
The pumping source is a switch type and inverse excitation model in small size but it has high efficiency.
本发明涉及一种激光头,包括:泵浦源,用于发射连续激光;
The invention relates to a laser head, comprising: a pumping source for emitting a continuous laser;
本文给出脉冲式可调谐染料激光器的结构参数及其泵浦源的性能参数。
Constitutional parameters of the pulsed dye laser and properties of the pumping laser are given.
本文通过研制一单模块多通道放电装置,对其泵浦源特性进行了研究。
The characteristics of pumping source are studied by developing a multichannel surface discharge model in this paper.
要满足当前的泵浦要求,高占空比大功率激光器阵列是必需的泵浦源。
There is the need for high duty-cycle laser diode array to satisfy the demand the DPSSL (diode pumping solid state laser) technology.
介绍了多通道表面放电泵浦源的设计,并对相关的触发机理进行了理论分析。
The design of the pumping source with multichannel surface discharge is introduced, and the trigger principle is analyzed theoretically.
并研究了随机介质、泵浦源以及外部环境等因素对随机激光阈值特性的影响。
Additionally, the influence of such factors as disordered medium, pumping sources and external environment on the lasing threshold is discussed.
实验中我们选定了最佳的泵浦源冷却温度以实现较弱但更加均匀的泵浦吸收分布。
An optimum laser diode (LD) array coolant temperature is chosen in an attempt to realize the weak but uniform pump absorption.
研究FRA的基本原理,喇曼增益谱,增益特性和结构模型,介绍FRA的泵浦源;
The essential theory, Raman gain spectrum, gain characteristics, the configuration and pump sources of the FRA are analyzed.
目前激光器输出功率受限于泵浦功率,增加泵浦源的数目有望进一步提高输出功率。
The experimental results have demonstrated the potential for higher output power with more powerful pump source.
假设晶体侧面保持恒定的温度,讨论了不同泵浦源下,激光晶体的三维温度场的分布。
With different pump source, the three-dimensional temperature field in the laser crystal was simulated on condition that the temperature on the crystal side remained constant.
用高能电子束作泵浦源,去激励半导体晶体屏,可以产生激光,实现高亮度高清晰显示。
Useing high energy electron beam as pumping source to excite semiconductor crystal screen laser could be generated. It can realize high brightness and high resolution display.
分析了对固体激光介质热效应有重要影响的工作物质、泵浦源,研究了热透镜产生的原因。
We research the issue of heat effect in the laser medium, analysis the work of substances, pump source, the cause of thermal lens which has an important impact on solid-state laser medium heat effect.
产生拉曼光泵浦信号的拉曼光泵浦源208通过光耦合器210被光耦合进入光纤段206。
A Raman optical pump source 208 that generates a Raman optical pumping signal is optically coupled into the optical fiber span 206 with an optical coupler 210.
光纤中断或连接器满载中断了第一中继光放大器102中的拉曼光泵浦源产生的信号光的路径。
The fiber break or connector pull interrupts the path of the optical signals from the Raman optical pump source in the first repeater optical amplifier 102.
泵浦源的空间分布以及晶体的吸收性质这两者共同决定了吸收泵浦光在晶体中的空间分布和热耗。
Both the spatial distribution of the pump source and the absorption properties of crystal decides the spatial distribution of the absorbed pump light in the crystal and the heat consumption.
利用多泵浦源提高单根光纤激光器的输出功率,利用二维光纤激光阵列排列增加参与组束的光纤数目。
The multiple pump sources are used to increase the output power of single fiber laser, and the two dimensions arrange of fiber laser array increases the number of combining fibers.
本文基于光纤拉曼放大器(FRA)的非线性功率耦合方程,利用改进的遗传算法对泵浦源实施优化设计。
Based on the nonlinear power coupled equations of fiber Raman amplifiers (FRA), the optimal design to the pumps source has been done with modified genetic arithmetic in this paper.
而光纤拉曼激光器(RFL)又作为FRA的泵浦源,它与光纤的耦合损耗小,可以实现泵浦与放大的良好兼容。
While optical fiber Raman laser (RFL) can be a good pump of FRA. The coupling coefficient between FRL and the transmission fiber is very small, so the pump and the amplifier can be compatible easily.
在一个实施例中,控制器228的输出端232被光耦合到拉曼光泵浦源208的控制输入端236,如结合图1所描述的那样。
In one embodiment, the output 232 'of the controller 228 is optically coupled to a control input 236 of the Raman optical pump source 208 as described in connection with Fig. 1.
脉冲铒YAG固体激光电源为氙灯提供能量,氙灯是激光的泵浦源,它燃烧发光激发工作物质铒YAG产生激光,因此激光电源的性能直接影响到激光光束的质量。
Power supply system provides flash energy to Xe lamp. Pumping of Er:YAG laser rod is provided by Xe lamp. Pulse solid laser power directly affects the attribute of laser.
结果表明,利用交叉相位调制效应压缩光脉冲时,无论泵浦脉冲还是信号脉冲,其线性源啁啾都对光脉冲的压缩产生重要影响。
It is found that not only the chirped pump pulse but also the chirped soliton pulse have great effects on the soliton pulse compression in anomalous dispersion regime. Fo...
结果表明,利用交叉相位调制效应压缩光脉冲时,无论泵浦脉冲还是信号脉冲,其线性源啁啾都对光脉冲的压缩产生重要影响。
It is found that not only the chirped pump pulse but also the chirped soliton pulse have great effects on the soliton pulse compression in anomalous dispersion regime. Fo...
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