研究纳米硅薄膜作为冷阴极的真空电子场发射特性。
Efficient field emission was observed from si nano-crystalline film.
提出楔形发射体的电子场发射理论并给出计算实例。
A field emission theory of metal wedge emitters was proposed.
研究了等温退火对非晶金刚石薄膜电子场发射性能的影响。
Effect of annealing on electron field emission properties of the a-D films was also studied.
通过该结构电流电压特性的测量和发光特性的观察研究了金刚石粉末冷阴极的电子场发射性能。
By measuring current voltage characteristics and observing light emission of these diodes, electron emission feature of these diamond powder cold cathodes were investigated.
一些电子设备如场发射显示器面板均是用纳米管线制作而成的。
Some electronic devices, such as field-emission displays in some flat panels, are made from nanotube yarns.
为了得到这些图像,研究人员用的是场发射电子显微镜(Field - emissionelectron microscopeor FEEM)。
To create these images, the researchers used a field-emission electron microscope, or FEEM.
利用脉冲激光烧蚀技术在硅衬底上制备了类石墨薄膜,以该薄膜为阴极进行了场致电子发射实验。
The graphite-like film was prepared on silicon substrate by pulsed laser ablation, and the field electron emission from the film was measured.
研究了不同衬底上纳米金刚石膜场电子发射性质。
The electron field emission from nanocrystalline diamond films on different substrate materials was investigated.
研制了一台集低能电子点源显微镜和场发射显微镜于一体的设备。
A facility has been developed that can function as a low-energy electron point source (LEEPS) microscope or a field-emission microscope (FEM).
本文介绍了真空微电子器件场发射金属尖阵列阴极的制备工艺技术。
This paper describes a fabrication technology of metal tip field emission arrays (FEA) for the vacuum microelectronic devices.
本文介绍了利用半导体硅材料制作的真空微电子器件的核心部件,场致发射硅锥阴极,的工艺研究及实验结果。
A process for the fabrication of Si cone cathode for the build up of vacuum microelectronic devices is proposed and its experimental results are given.
分析结果表明,宽带隙平面薄膜结构用作场致电子发射阴极,具有发射电压的阈值低,发射电子的能量分布范围小等优点。
The study result shows that the planar film structure is conformable for FEE cathode, because it has low voltage threshold and small range of energy distribution of the emitted electrons.
为此,人们采用各种类型的激光驱动光电阴极、一些热阴极和场致发射阴极作为电子源。
For this purpose, several kinds of laser-driven photocathodes, and some thermionic cathodes and field emission cathodes are applied.
我们搭建了一套实验装置,用来观察场发射中到达阳极屏上的电子(主要是二次电子)的能量分布。
An experimental instrument is set up to observe the energy distribution of electrons (mainly secondary electrons) on the anode screen in the field emission.
实验结果表明该薄膜是一种好的场致电子发射体。
The result revealed that the film could be a good kind of field electron emitter.
实验结果表明该薄膜是一种好的场致电子发射体。
The results revealed that the film could be a good kind of field electron emitter.
随着真空纳电子学(VNE)越来越受到关注,对于场致发射显示器件(FED)的研究不断深入。
As the research of Vacuum Nanoelectronics (VNE) is attracting more attention, many progresses have taken place in the field of field emission devices (FED).
简要介绍场致发射与真空微电子的一般情况,尔后着重介绍应用真空微电子原理制作的场发射平板显示器(FED)。
After a brief introduction to field emission and Vacuum microelectronics, the author focuses on field emission display (FED), which is made according to principle of Vacuum microelectronics.
场致发射过程中,二次电子发射现象不可忽视。
In the process of field emission, the secondary electron emission is inevitable.
曲线呈线性关系证明电子发射确为场致发射。
Its linear F-N curve shows the electron emission was field emission.
本发明还涉及上述碳纳米管场发射电子源的制造方法。
The invention also relates to manufacturing method of said carbon nano pipe field emission electron source.
通过X射线粉末衍射仪、场发射扫描电子显微镜和荧光分光光度计分别表征样品的晶体结构、颗粒形貌和发光性能。
The crystal structure, morphology and luminescent properties of samples were analyzed by the X-ray diffraction, field emission scanning electron microscope and spectrofluorometer, respectively.
场发射阴极作为各种真空微电子器件的核心,其性能的好坏将直接决定着场发射器件的总体性能。
The whole performance of device depends on the capability of field emitting cold cathodes which act as the kernel of all kinds of vacuum micro-electronics device.
生长的金刚石薄膜样品具有很低的压应力和优良的场电子发射性能。
The diamond film presents very low compressive stress and excellent field emission character.
详述了近贴聚焦二极管像增强器与低亮度矩阵el显示屏耦合,用光电阴极代替场发射电子,开发出一种新型显示器。
With the proximity focused diode image intensifier coupled to a low luminance el display, and a photocathode instead of a field-emitter, a new photocathode display is developed.
利用X射线衍射仪和场致发射扫描电子显微镜等手段对合成粉体的相组成、结构和形貌进行了研究。
The phase composition and microstructure of mullite powders were investigated by X-ray diffraction and field emission scanning election microscopy techniques.
金刚石因具有高硬度、高热导率、负电子亲和势等优点而成为场发射阴极的首选材料之一。
With the merits of high hardness, high thermal conduction, negative electron affinity, diamond is deemed one of the preferred materials of the field emission cathode.
该电子源可经由场发射或热离子发射来发射电子。
The electron source may emit electrons either via field emission or thermionic emission.
研究了多孔硅衬底微波 CVD金刚石薄膜的制备工艺及其场电子发射特性 。
Preparation and field electron emission of diamond films grown on porous silicon substrates by MW-CVD are studied.
研究了多孔硅衬底微波 CVD金刚石薄膜的制备工艺及其场电子发射特性 。
Preparation and field electron emission of diamond films grown on porous silicon substrates by MW-CVD are studied.
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