1) Specific division rate
分裂频率
2) frequency splitting
频率分裂
1.
Phase retardation measurement of wave-plate based on laser frequency splitting technology;
基于激光频率分裂的波片位相差测量方法
2.
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。
3.
The principle is based on the frequency splitting, mode competition, cavity tuning, etc.
以笔者发现的激光频率分裂、模竞争、腔调谐等双折射双频激光物理效应 ,研制成激光器纳米测尺。
3) resonant frequency splitting
共振频率分裂
1.
The resonant frequency splitting caused by photonic crystal (PC) defect coupling can be well described by the tight-binding (TB) approximation in which only two coupling parameters are used.
通常采用含两个耦合参数的紧束缚近似,就能很好地描述光子晶体缺陷因耦合而导致的共振频率分裂。
4) Cell division frequency
细胞分裂频率
5) Mitotic frequency
有丝分裂频率
6) laser frequency split
激光频率分裂
补充资料:频率计量(见时间频率计量)
频率计量(见时间频率计量)
frequency metrology: see time and frequency metrology
口n IQ liliang顷率频率计皿(f比quency metrolo盯) 计t。见时闰
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