在一次实验中的某个精确时刻,谐振器可能同时处于其放大和收缩状态;一次单一测量迫使其“选择”处于何种状态。
At a precise moment during one trial, the resonator might be both in its expanded and its contracted state; a single measurement forces it to "choose" which state to be in.
因此,高斯束谐振系统对高频遗迹引力波的频率和传播方向具有良好的选择效应。
Therefore, GBRS have a useful selective effect with respect to the frequency and propagation direction of relic HFGWs.
分析工频铁磁谐振时,选择正确的非线性电感励磁特性类型至关重要。
It is vital to choose the right excitation characteristic of the nonlinear inductor when analyzing ferroresonance.
通过多步谐振光电离技术可以实现对原子(或分子)选择性的电离。
Selectively ionizing atoms (or molecule) can be easily performed by means of a multistep resonance photoionization technique.
提出了按电容支路串联谐振频率点选择电抗值的方案。
The reactor value choosing method of capacitor and reactor circuit resonance frequency point in series is put forward.
本文基于对上述模型的设计,讨论了谐振腔中工作物质的摆放,引导光束并且进行模式选择的选模光纤和锁模器件。
The place rule of work material, laser fiber to select mode and mode locking apparatus are researched in this paper.
为了改善滤波器的性能,提高滤波器的选择性,提出了互补开环谐振器(COLR)。
To improve the performance and selectivity of filter, a complementary open-loop resonator(COLR) is proposed.
这类新型谐振单元尺寸大大缩小,结构紧凑,为低频段的频率选择性表面阵列的实现提供了可能。
These new resonant cells are greatly reduced in dimensions and very compact in structures, so it is possible to realize the lower frequency selective surface.
在单层阻抗匹配层的情况下,合理地选择匹配层的厚度可以调整其谐振点之间的位置,从而改善换能器的辐射特性。
The places of resonance points can be adjusted, and the radiated characteristic of transducer with single matching layers was improved by choosing the length of matching layer reasonably.
在单层阻抗匹配层的情况下,合理地选择匹配层的厚度可以调整其谐振点之间的位置,从而改善换能器的辐射特性。
The places of resonance points can be adjusted, and the radiated characteristic of transducer with single matching layers was improved by choosing the length of matching layer reasonably.
应用推荐