1) RF cavity
微波腔
1.
Investigation of nonlinear self-consistent interaction progress between microwave and electron beam in RF cavity;
任意时间分布电子束与单间隙微波腔的非线性自洽过程研究
2.
Particle simulation and optimization design of X-band quasi-periodic RF cavity for high power microwave source;
X波段类周期加载微波腔的优化设计和粒子模拟
3.
Investigation of quasi-periodic RF cavity for high power microwave source;
X波段准周期加载微波腔研究
2) microwave cavity
微波腔
1.
Preliminary study of wave-chaotic scattering in microwave cavity
微波腔内波混沌散射的初步研究
2.
We have modified the structure of slotted tube microwave cavity to improve S/N of rubidium frequency standard.
为了提高铷原子频标的信噪比,对开槽管腔结构进行了改进,利用改进后的微波腔,研制出物理系统,与已有电路进行了联试,实现了频率锁定。
3.
In this article,we introduced a kind of high cavity-Q TE_(011) model microwave cavity,which can be used in the Space-Qualified RAFS.
本文介绍了一种应用于星载铷钟的高Q值的TEO11模式微波腔。
3) single-mode microwave
微波单模腔
4) microwave reactor
微波反应腔
1.
Basing on Maxwell equations, we have used the Finite Integration Theory (FIT) and calculated electromagnetic field space distribution of microwave reactor in fixed space distribution of plasma, and distribution of plasma in fixed space distribution of electromagnetic field space distribution.
从麦克斯韦方程组出发,采用有限积分法计算出了微波反应腔中给定等离子体的空间分布时电磁场的分布情况,以及给定电磁场的空间分布时等离子体的分布情况,从而得到了微波反应腔中电磁场的稳定分布和影响等离子体放电位置的参数。
2.
Based on the finite integration theory (FIT),electromagnetic field for a given spatial distribution of the plasma in rotational symmetric microwave reactor has been simulated.
采用有限积分理论的算法,模拟了具有轴对称的微波等离子体反应腔中电磁场的分布情况,计算出给定等离子体的空间分布时微波反应腔中电磁场的稳定分布状态。
5) cylindrical cavity
圆柱微波腔
6) microwave cavity
微波谐振腔
1.
The analysis and design for the microwave cavity in laser-cooled Rb fountain clock developed by ourselves were presented and the basic parameters of the microwave cavity developed were designed in this paper.
对自行研制的激光冷却铷原子喷泉钟的微波谐振腔进行了分析和设计,确定了需要的微波谐振腔基本参数。
2.
According to the modulation of mi-crowave cavity on different input signals,this paper judges the relationship between the frequency of input signal and the reso-nant frequency of microwave cavity through amplitude discrimination and phase demodulation,then,we use MCU to control the output frequency of VCO to .
根据微波谐振腔对不同频率输入信号的调制作用,通过鉴幅、鉴相判断输入信号频率与微波谐振腔谐振频率的关系,进而利用单片机控制压控振荡器(VCO)的输出频率,从而减小频率跟踪的时延,并实现频率跟踪的智能化。
补充资料:腔内微波治疗
腔内微波治疗
intra luminal microwave treatment
微波电极置于有袋尿管内,将尿管固定于前列腺部尿道内,局部温度维持在43°C,放置3h,可用于前列腺增生疾病的治疗。
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