场致发射
- 网络field emission;field-emission;fed
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新型场致发射显示器测试技术的研究
Study on Novel FED Test Technology
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场致发射阵列(FEA)平板显示器的实现,标志着FEA发展到新的阶段,对FEA的研究也提出了新的要求。
The realization of Field Emission Array Display ( FEAD ) symbolizes a new stage of the Field Emission Array ( FEA ) cathode , and it stimulates the development of FEA .
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后栅结构四针状纳米ZnO场致发射显示器的研制
Developing of the under-gate structure tetrapod-like nano-material ZnO field emission display
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新型可印刷FED场致发射显示器的研制
Development of novel printable field emission display prototype
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场致发射平板显示器(FED)的封接工艺
The sealing technique of field emission display
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丝网印刷纳米ZnO薄膜阴极场致发射的研究
Study of Screen-printed ZnO Film for Field Emission Cathode
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采用质点网格法(Particleincell),利用MAGIC软件模拟了场致发射的物理过程。
By using the electromagnetic particle in cell ( PIC ) MAGIC code , the process of field emission is simulated .
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金刚石薄膜的微波CVD法制备及其场致发射
Field electron emission from diamond thin films prepared by chemical vapor deposition
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铜基底CVD微晶金刚石场致发射特性及接触性质研究
Field Emission Characteristics and Ohmic Contacts of CVD Diamond Coated Copper Field Emitters
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CVD金刚石膜场致发射的机理
The field emission mechanism of CVD diamond film
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当今FED研究的关键是寻找场致发射性能良好、制作工艺简单、经济可靠的阴极。
Now the key to fabricate FED device is to find a economical and credible cathode , which has excellent field emission capability and simple manufacture technology .
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作为导电电极材料ITO透明薄膜被广泛应用于摄像管、场致发射板、等离子体显示及液晶显示器件中。
As a conductive material the transparent ITO thin film is used in a variety of the electric display devices .
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碳纳米管(CNT)具有优良的场致发射特性,是场致发射器件的理想阴极材料。
Carbon nanotubes have good field emission characteristics and are the ideal cathode material of field emission devices .
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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 .
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通过对场致发射显示器(FED)发展现状及其应用前景进行系统的比较与分析,着重讨论了场致发射体及其阵列制备工艺以及各种关键技术的优缺点。
The development status and application future of field emission display ( FED ) are compared and analysed . Field emitters , array fabrication technology and variant key technique are discussed emphatically .
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利用MonteCarlo方法,模拟场致发射器件中二次电子的产生、运动过程。在模拟的过程中,同时考虑了空间电荷积累效应,二次电子发射和背散射过程。
Using the Monte Carlo method and considering the space charging effect , we simulate the production and the transmission of the secondary electrons in FEDs , and the collision among particles .
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碳纳米管场致发射显示(CNT-FED)的新型灰度等级调制方式
New Methods of the Gray-scale Modulation for the CNT-FED
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I-V测试表明用该法得到的碳纳米管薄膜具有良好的电子场致发射性能。
The tests show that the emitter made by the simple method has good properties of electron field emission , following the Fowler-Nordheim behavior .
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F-N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 .
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介绍了nc-Si量子点冷阴极的制备,场致发射特性的测试,解释了nc-Si量子点冷阴极的工作模型及电子弹道发射的原理。
The fabrication process of nc - Si quantum dots cold cathode and the measurement system were described in detail .
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采用ANSYS有限元计算程序,对场致发射体进行模拟计算,初步研究了发射体的几何形状尺寸与其发射特性之间的联系。
The ANSYS finite element computation program is used for the simulation calculation of the structure of field emission array . The relationship between the geometrical shape and dimension with its emission characteristics has been preliminarily studied .
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本文讨论了场致发射显示器的工作特性,以及CNT-FED对驱动电路的要求。
This paper studies the characteristic of CNT-FEDs and the requirements for field emission display driving circuit .
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碳纳米管/聚氨酯泡沫易于实现场发射冷阴极的大面积制备,聚氨酯基体对CNT提供保护,并且工艺简单,制备成本低廉,电流密度达到场致发射显示器应用的要求。
Large area field emission cold cathode is easy prepared by carbon nanotube / polyurethane foam that is simple process , low cost and CNT protected by polyurethane .
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最后着重介绍正在研发中新型的LCD用低功耗印刷型场致发射(LPC-FED)背光源。
A novel low power consumption printable field emission ( LPC-FED ), which is still under research , is particularly introduced .
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Fowler-Nordheim公式是一个在理想条件下推导的计算场致发射电流的公式。
Fowler-Nordheim formula is a theoretical formula for calculating field emission currents . It was derived under some idealized conditions .
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场致发射显示器集CRT的高显示质量和LCD的低功耗优点于一身,是一种新兴的具有广阔发展潜力的自发光平板显示器件。
As a new self-luminous flat panel display technology , field emission display ( FED ) has great potential for development , with the advantages of high display-quality of CRT and low power consumption of LCD .
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结合真空微电子技术、MEMS技术和传感器技术,依据冷阴极场致发射的原理,设计了一种带过载保护功能的新型真空微电子加速度传感器。
A novel acceleration sensor with overload protection was proposed , which was based on the vacuum electronic technology , the Micro Electro-Mechanical Systems ( MEMS ) technology , the sensor technology and the principle of Cold Electrode Field Emission .
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然后用喷枪将经过超声处理的悬浊液喷涂在具有ITO薄膜的玻璃基底上,制备了30mm×20mm大小的纳米碳管阴极,并进行了场致发射特性实验,制作了场发射显示板。
Mm × 20 ? mm carbon nanotube cathode was prepared . The field emission experiment was conducted and the field emission display panel was then fabricated .
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本文根据场致发射原理,结合彩管制造技术的特点,对彩管制造过程中G2电极寄生发射不良产生的原因作出科学、合理的解释,确定其原因,并据此有针对性地采取有效措施
Based on the field emission theory , the parastic emission on the G2 electrode during the manufacture of CPTs are investigated . The effective measures for eliminating this parasitic emission are also discussed in this paper
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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 ) .