真空电子器件

真空电子器件用Al2O3陶瓷

Alumina Ceramics for Vacuum Electronic Device

详细介绍了国内外真空电子器件的发展状况。

The process of development about vacuum electronic device in home and overseas .

由于其特殊的结构，四角状ZnO一维纳米结构在真空电子器件方面有很好的应用前景。

Our results demonstrated that tetrapod-like ZnO 1D nanostructures have potential application in the field of vacuum electron devices arising from the special structure .

用于真空电子器件的非ODS水剂清洗工艺

Non-ODS Aqueous Cleaning Technique for Vacuum Electron Components

笔者认为：BeO瓷在近期相当一段时期内，仍然是大功率真空电子器件领域内最为广泛应用的高热导率陶瓷。

It is believed that the BeO ceramic will still have a most wide application in the near future .

确定了一套完整的54cmFS高真空电子器件金属零件化学研磨工艺。

A kind of chemical grinding process for metal parts of 54 cm FS high-vacuum electronic devices was determined .

自从20世纪50年代以来，计算方法在理解和研制真空电子器件及其相应的高功率器件（如HPM管）方面一直起着关键性的作用。

Since 1950s , the calculation method has played a pivotal role in the understanding and development of electronic vacuum devices and their corresponding high-power devices ( such as the HPM ) .

真空电子器件用V-B系列钎料研究

Research on A Series of V-B Solder Used in Vacuum Electronic Devices

为适应大功率微波真空电子器件对大电流密度、高稳定性热阴极的发展要求，本论文研制了一种新型双层膜钡钨阴极（Os-W／Re和Os-Ru／Re双层膜钡钨阴极）。

A new type of dispenser cathode with dual-layer ( Os-W / Re and Os-Ru / Re ) has been developed in order to meet the high electron emission and reliability requirements of high power microwave electron devices for electron emitters .

紫外和红外真空电子器件及其应用

The Ultraviolet and infrared Vacuum Electron Tube and Its Applications

真空电子器件高频钎焊设备的研制

Development of High-frequency Brazing Equipment Used in Vacuum Electronic Devices

高真空电子器件金属零件化学研磨工艺

Chemical grinding process for metal parts of high-vacuum electronic devices

真空电子器件工作和非工作可靠性的探讨

Operating and Non-operating Reliability of Vacuum Electronic Devices on working

微型真空电子器件技术研究

Investigation of Micro - Vacuum Electronic Devices and Technology

本文给出了大功率微波真空电子器件的发展及应用情况。

The advance and application of microwave tubes are given in this paper .

微波真空电子器件磁控管的失效率模型

Failure Rate Model of Microwave Vacuum Electronic Devices

真空电子器件与模拟技术

Vacuum Electronic Devices and Modeling , Simulation Technique

镍-63&真空电子器件中新的预电离源

~ ( 63 ) Ni & A New Pre ionization Source of Vacuum Electronic Devices

金刚石膜在真空电子器件输出窗中的应用

Application of Diamond Film in the Output Window of the Millimeter Wave Vacuum Electronic Devices

大功率微波真空电子器件的发展及应用

The Advance and Application of Microwave Tubes

微型真空电子器件和太赫兹辐射源技术进展

Micro-Vacuum Electron Devices and Terahertz Vacuum Sources

多年来，中国真空电子器件产品市场单一且缺乏竞争力。

For many years , Chinese electron vacuum devices were lack of competitive force in the world market .

行波管是广泛应用于雷达、通信、遥测和电子对抗等各种电子设备中的非常重要的微波真空电子器件。

Traveling wave tubes are widely used in various types of electronic devices such as radar , communications , remote sensing and electronic counterwork .

为了促进真空电子器件的应用，氧化铝陶瓷及其表面金属化得到广泛的关注和研究。

In order to promote the application of vacuum electron devices , extensive studies on alumina ceramics and its metallizing have been carried out worldwide .

这是目前对真空电子器件只能用常规寿命试验才能进行可靠性评价之外的另一途径的尝试和探讨。

This is an attempt of an inquisition at evaluating the vaccum devices ' reliability level using another method instead of regular life testing method .

在军事和民用信息系统及人民日常生活中，真空电子器件发挥着重要的作用。

The vacuum electronic device plays a very important role in the military affairs and demotic message system and the daily life of the people .

金属光子带隙结构在高能加速器、微波真空电子器件和太赫兹波源等方面具有重要的应用前景。

The metal photonic band gap structure has potentialities in the areas of high-energy accelerators , microwave vacuum electron devices , and terahertz radiation sources etc.

回顾了真空电子器件二十年来的发展，并对今后七年薄膜与真空器件研究和生产的若干趋势作了扼要的叙述。

The development of vacuum electronic devices was reviewed , and a vista of thin film and vacuum devices for the year of 2000 was prospected .

微型真空电子器件近期得到了蓬勃的发展，这种器件的小型互作用电路的研发也取得了另人瞩目的成果，已经成为当前真空电子学领域的研究热点。

Micro-vacuum electron devices (μ VED ) have been experiencing tremendous growth in recent years and become one of the most attractive research areas in vacuum electronics .

利用这放电现象制成的一种真空电子器件即引燃管，具有耐压高、率大、流上升速度快等特点。

A vacuum electron device made by the discharging currnt , that is , ignitron , has the features of resistance to high pressure , high power and fast current rise .