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- Keywords Micro-patterned;Well-aligned carbon-nanotube;Field emission arrays cathode;Direct current plasma enhanced chemical vapour deposition; 微图形;定向碳纳米管;场发射阵列冷阴极;直流等离子体增强化学气相沉积;
- Field emission arrays cathode 场发射阵列冷阴极
- Field emission array cathodes 场发射阵列阴极
- NEW DEVELOPMENT OF FIELD EMISSION ARRAY 阵列场发射电子源的新进展
- field emission array electron source 阵列场电子发射电子源
- field emission arrays 场发射阵列
- Preliminary Design of a Electron Gun Employing Field Emission Array 场致发射阵列阴极电子枪的设计及模拟研究
- Screen printing technology has been improved to fabricate large area, carbon nanotube (CNT) field emission cathode. 摘要碳纳米管(CNT)是理想的场发射阴极材料。
- The field emission display (10) comprises a cathode plate (12) having a plurality of electron emitters (44). 该场致发射显示器(10)包括具有多个电子发射器(44)的阴极板(12)。
- Furthermore, a field emission triode device using the self-organized nanodot arrays as electron emission source was proposed and fabricated. 本研究亦利用奈米点作为电子发射源制作场效发射三极体元件。
- With the carbon nanotube film as cathode materials, the field emission characteristics of the carbon nanotube film cathode are presented and analyzed. 利用碳纳米管薄膜作为阴极材料,给出并分析了碳纳米管薄膜阴极的场致发射特性。
- Field emission display not only possess image quality of CRT (cathode ray tube), and also has merits of power consumption and compact size. 摘要:场发射显示器不仅保留了阴极射线管的影像品质,并具有省电及体积薄小之优点;
- Field emission cathode traveling-wave tube(TWT) is a new type of microwave device and field emission cathode is an important component of TWT. 摘要场致发射阴极行波管是一种新型的具有竞争力的微波器件,场致发射阴极是场致发射阴极行波管的重要组成部分。
- As the key parts in vacuum microelectronic devices, field emission cold cathode materials play a crucial role in the research and application of vacuum microelectronics. 摘要场发射冷阴极材料作为真空微电子器件的核心部件,在真空微电子场发射的研究与应用中占有极其重要的地位。
- Study of Fabricating Silicon-tip Field Emission Array Used in Micravacuum Devices 真空微电子器件中的场发射硅尖阵列制作研究
- Field emission behavior is consistant with Fowler-Nordheim theory. 电子场发射行为符合F-N理论;
- By setting up theoretical model, field enhancement factor and its related factors were firstly theoretically explored, which is very important to evaluate field emission of CNT arrays. 通过建立理论模型,本文第一次系统地研究了电场增强因子与相关影响因素的关系。 电场增强因子是评价碳管阵列场发射性能的重要参数,故该研究将有助于发现改善碳管阵列场发射性能的有效手段。
- Study on the Optimum Density of Carbon Nanotube Field Emission Cathode Arrays 最佳碳纳米管场发射阴极阵列密度的研究
- We suggest that as lead-free cathode materials, BNBT and BT outweigh PZT from environmental consideration in spite of the fact that the field emission current density of PZT is slightly higher than that of both BNBT and BT. 结果认为:锆钛酸铅材料的电子发射电流密度略优于其他两种材料,但从无铅化角度来讲,钛酸钡与钛酸铋钠材料将有望取代现有的锆钛酸铅铁电阴极材料。
- Field emission characteristics of three different ferroelectric cathode materials: lead zirconate titanate( PZT), natrium bismuthate titanate( BNBT) and barium titanate( BT) were experimentally studied and their emission waveforms were analyzed. 本文采用锆钛酸铅、酸铋钠和钛酸钡三种不同铁电阴极材料,进行了电子发射试验,测定了电子发射电流密度,并对其在电子发射试验时的波形进行了分析讨论。
