1) dual-end-pumped
双端端面抽运
1.
The design of a dual-end-pumped Nd:YVO_4 Z-folded-resonator master oscillator is simulated and the effect of each cavity parameter on the stability of the resonator is analyzed in detail according to the ABCD transfer matrix theory.
对双端端面抽运的Nd:YV_4Z型折叠腔主振荡器的设计进行了模拟,采用ABCD传输矩阵理论详细分析了各腔参量对谐振腔稳定性的影响。
3) end pump
端面抽运
1.
A simple Nd∶YVO 4 microchip laser with a plano/plano cavity end pumped by LD is reported.
用一种简单方法实现了 LD端面抽运 Nd:YVO4 的平 -平腔微片激光器 ,获得波长为 1。
2.
By using a continuous wave, LD end pumped Nd∶YAG laser as a model of the experiment, the noises including intensity noise, frequency noise and field distributing noise of the laser are studied.
以连续激光二极管端面抽运NdYAG激光器为实验模型,研究了该激光器中输出激光强度噪声、频率噪声和场分布噪声的特性,并根据实验数据推算出NdYAG晶体的粒子上能级寿命随温度变化为1。
4) end-pumped
端面抽运
1.
Optical bistability performance of laser-diode end-pumped Tm,Ho:YLF laser;
激光二极管端面抽运Tm,Ho:YLF激光器双稳特性研究
2.
Research of End-pumped 4-mirror Folded Cavity Nd∶YVO_4 Laser;
端面抽运四镜折叠腔Nd:YVO_4激光器的研究
3.
Cavity mode matching analyses of end-pumped solid-state lasers;
端面抽运固体激光器的腔模匹配分析
5) end pumped
端面抽运
1.
A high power high efficiency Nd∶YVO 4 solid state laser end pumped by a fiber coupled diode laser was reported in this paper.
报道了一种光纤耦合半导体激光器端面抽运高功率高效Nd:YVO4固体激光器。
2.
A few critical rules concerning the design of resonators used for high power laser diode end pumped CW solid state lasers were presented in this paper.
提出了设计高功率半导体激光器(LD)端面抽运连续固体激光器谐振腔的基本原则。
3.
A high power quasi CW diode laser arrays end pumped Nd∶YVO 4 laser is experimentally studied.
对高功率准连续激光二极管端面抽运的 Nd:YVO4 固体激光器进行了实验研究。
6) LD end-pumped
LD端面抽运
1.
Compact LD end-pumped Nd:YAG intracavity frequency-tripled quasi-continuous 355 nm laser
紧凑型LD端面抽运Nd:YAG内腔三倍频准连续355nm紫外激光器
补充资料:双[1-(4-二甲氨基)苯基2-苯基1,2-二硫代乙烯合镍]
分子式:
CAS号:
性质:紫黑色单斜晶体。熔点277~278℃。溶于苯、甲苯、三氯甲烷等大多数有机溶剂。红外频率υ(C=S)1190、1165、1140cm-1,红外频率υ(S-C-C-S)880cm-1。由对二甲氨基安息香、五硫化二磷在二噁烷(二氧六环)中反应后,加入镍(Ⅱ)盐溶液制得。用作光学非线性材料。
CAS号:
性质:紫黑色单斜晶体。熔点277~278℃。溶于苯、甲苯、三氯甲烷等大多数有机溶剂。红外频率υ(C=S)1190、1165、1140cm-1,红外频率υ(S-C-C-S)880cm-1。由对二甲氨基安息香、五硫化二磷在二噁烷(二氧六环)中反应后,加入镍(Ⅱ)盐溶液制得。用作光学非线性材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条