1.
Theoretical and Experimental Investigation of Dual-frequency Laser Based on Faraday Effect and Zeeman Effect;
磁致旋光—塞曼双频激光器的理论及实验研究
2.
Studies of the Transverse Zeeman-Birefringence He-Ne Dual-Frequency Lasers Characters and Its "Dual-Frequency" Stabilization;
横向塞曼—双折射He-Ne双频激光器特性及其“双频”稳定性研究
3.
Frequency Stabilized 543nm Green Zeeman He-Ne Laser and Its Application in Dual-frequency Interferometry
543nm绿光氦氖激光器的塞曼稳频及其在双频干涉仪中的应用
4.
This paper discussed an opto-heterodyne technique for small-plane-angle measurement with a frequency-stabilized longitudinal Zeeman laser as the light source.
文本用纵向塞曼双频稳频激光器作光源,提出了一种光学超外差法小平面角的精密测量方法.
5.
simultaneous dual frequency dye laser
同步双频染料激光器
6.
All Solid State Intracavity Frequency-Doubled Nd:YAG/SrWO_(4)/KTP Raman Laser
全固体腔内倍频Nd:YAG/SrWO_4/KTP拉曼激光器
7.
Study of LD-Pumped 1064nm Dual-Frequency Nd: YAG Laser with Large Frequency-Difference;
LD泵浦1064nm大频差双频Nd:YAG激光技术研究
8.
Dual Wavelength and Dual Pulse Q-switched Frequency Doubling of Tunable Cr:LiSAF Laser
双波长双巨脉冲调Q倍频Cr:LiSAF激光器
9.
6D laser measurement system based on double longitudinal mode laser with thermal frequency stabilization
基于双纵模热稳频激光源的6D激光测量系统
10.
Stimulated Raman Scattering and Stimulated Four photon Mixing in Er doped Silica Fiber
掺铒石英光纤中的受激拉曼散射及受激四光子混频
11.
A New Method of Dynamic Angle Measurement with Dual-frequency Interferometer
一种双频激光动态转角测量的新方法
12.
Study of LD-Pumped Dual-Frequency Nd:YAG Laser Technique;
LD泵浦双频Nd:YAG激光技术研究
13.
Investigation of LD-pumped Dual-frequency Nd:YAG Laser Technique;
LD泵浦双频Nd:YAG激光技术的研究
14.
Cutoff Frequencies Analysis of Bichromatic High-Order Harmonic Generation Spectra
双色激光脉冲谐波谱的截止频率分析
15.
Stability Analysis of Beat Frequency in Double-Longitudinal-Mode He-Ne Laser
双纵模He-Ne激光器的拍频稳定度分析
16.
Growth and Investigation of Raman-active Double Tungstate Crystals;
双钨酸盐拉曼激光晶体的生长及物性研究
17.
The Preliminary Study on Dual Frequency Laser Interferometer with Mid-frequency Difference;
中频差双频激光干涉测量系统的初步研究
18.
Study of LD-Pumped Intracavity Frequency-Doubled Dual-Frequency Solid-State Laser Technique;
LD泵浦内腔倍频双频固体激光技术的研究