So rather than calling this an electron beam, this was called a cathode ray.
因此我们最好别叫它电子束,而是阴极射线。
Especially, analyze qualitatively the effect that the cathode magnetic field Angle contributes to beam ratio and prove it by calculation.
特别的是,文章中定性分析了阴极磁场角对电子注速度比的影响,并通过计算获得证明。
This paper describes a new heating cathode source for electronic beam welder (EBW).
提出了一种新型的电子束焊机用阴极加热电源。
Simulation and measurement result indicate that magnetic field influence the beam current of MIG, and the beam current of the MIG depends on the cathode temperature and space charge effect.
模拟和测量结果显示磁场对MIG的束流有影响,MIG的束流也与阴极温度和空间电荷效应有关系。
As a convenient and cheap cathode, velvet can emit intensive electron beam and is widely used in high power electron devices.
天鹅绒阴极能够产生高亮度强流电子束,并且成本低、使用方便,在强流高功率单脉冲电子束装置中得到了广泛的应用。
The ion energy and the density of beam flux of cold cathode ion source were measured by pentagrid probing and Faraday cup.
采用五栅网离子能量测量装置和法拉第筒测量了宽束冷阴极离子源的离子能量和离子束流密度。
The effects of the cathode surface electric-field and electron initial velocity on the electrode shape and characteristics of electron beam are calculated and analysed.
计算分析了阴极表面电场与电子初(?)对电极形状和电子注特性的影响。
The extracted beam current depends on operating parameter of source, extraction voltage and cathode material.
引出束流大小与源的工作参数、引出结构和电压以及阴极材料有关。
Using beam emission models, the influence to the magnetron characteristics by the cathode current destiny can be obtained.
利用磁路电子注发射方式针对不同的阴极发射电流进行了动态模拟,得到了不同发射电流条件下磁控管的工作特性。
In television, the repetitive movement of the cathode beam over the phosphor screen.
的翻译是:在电视上,在重复的动作与阴极射线的荧光屏幕。
To control the electron beam emitted from the carbon nanotube (CNT) cathode, four different electron chunnels are designed.
为了控制碳纳米管阴极发射电子束的形状,设计了4种电子通道来控制电子束轨迹。
With the increase of the magnetic field on the cathode surface, wave amplitude and equilibrium radius of the electron beam increase;
随着阴极表面磁场的增大,电子注注腰半径增大,电子注波动增大;
It was found that the uniformity of the extracted electron beam is satisfactory in spite of individual plasma jets on the cathode surface.
结果发现,所提取的电子束均匀性等离子体射流在个别尽管令人满意的阴极表面。
The emission of repetition rate and intense current electron beam has different character with single pulse emission, and it has different request to the cathode.
与单脉冲工作的二极管相比,重复频率运行的强流电子束二极管具有不同的特点,对阴极也有不同的要求。
The emission of repetition rate and intense current electron beam has different character with single pulse emission, and it has different request to the cathode.
与单脉冲工作的二极管相比,重复频率运行的强流电子束二极管具有不同的特点,对阴极也有不同的要求。
应用推荐