Two novel applications of laser frequency splitting technology are reported, including two methods in solving the problem of mode competition to obtain a dual frequency laser whose frequency difference can cover 1-40 MHz, as well as the principle and the experiments of making a birefringence dual frequency laser itself be a displacement sensor.
主要介绍了激光频率分裂技术的两种新应用,包括用两种方法克服强模竞争以获得频差可覆盖1-40 MHz的双频激光器,以及将一个双折射双频激光器本身用作一个位移传感器,这种双频激光器可以填补塞曼激光器和双折射激光器之间存在的3-40 MHz频差空白,可以用作激光干涉仪理想的光源,位移传感器结构简单,其分辨率为79 nm,测量范围达到了15 mm,并且可以自校准。
rare gas excimer laser
稀有气体激元激光器
rare earth vapor laser
稀土元素蒸气激光器
dual laser
【光】双波长激光器
Plasmonic Waveguide and Filter Design;
表面等离子激元光波导与滤波器设计
Design of temperature-control unit of LD-pumped solid laser
LD泵浦固体激光器温控单元的设计
ciplex dye laser
复合受激态染料激光器
RF excited ion laser
射频激励离子激光器
laser pumped microwave emission
激光泵浦微波激射器
transverse-excited atmosphere laser
横向激发大气压激光器
chemically excited molecule laser
化学受激分子激光器
electric discharge excited gaseous laser
放电激励气体激光器
nuclear charged self-sustaining laser
核充电的自激激光器
cadmiummercury excimer laser
镉汞受激准分子激光器
PNPN negative resistance laser
PNPN负阻激光器
DFB(Distributed Feedback)
分布反馈(激光器)
Study on Phase Aberration of the Optics for High Power Solid-state Laser Facility;
高功率固体激光驱动器光学元件位相误差研究
laser-to-fiber positioner
激光器至光纤定位器
Maser, General;Maser Amplifier;Laser, General;Laser Generator
微波激射器, 常规;微波激射器放大器;激光器, 常规;激光发生器