1.5: Development of field emission cathodes, electron gun and a slow wave structure for a terahertz traveling wave tube

机译：1.5：开发太赫兹行波管的场发射阴极，电子枪和慢波结构

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High power terahertz (THz) sources and amplifiers hold the potential to greatly improve remote sensing and high bandwidth communication. To enable these applications, a Traveling Wave Tube (TWT) operating at 0.22 THz and a multi-cathode Field Emission (FE) electron gun are developed and characterized using a Particle-in-Cell simulation. Three candidate high current density cathode materials, Halfnium Carbide (HfC), carbon fibers, and Carbon Nanotubes (CNTs) were tested, characterized and their emission properties compared and used to verify simulations. A current of 3.0 mAmps for a single 100 micron diameter single walled nanotube rope was experimentally achieved and used as the basis of the FE gun design. Simulations of the FE gun and THz TWT were coupled and the effects of multiple and single tip FE gun beam characteristics on the TWT gain, bandwidth, and efficiencies are examined for several beam optic configurations.

机译：高功率太赫兹（THz）源和放大器具有极大地改善遥感和高带宽通信的潜力。为了实现这些应用，开发了工作于0.22 THz的行波管（TWT）和多阴极场发射（FE）电子枪，并使用了单元内粒子模拟技术对其进行了表征。测试了三种候选的高电流密度阴极材料，碳化铝（HfC），碳纤维和碳纳米管（CNT），并对其特性进行了比较，并用于验证仿真。通过实验获得了直径为100微米的单壁纳米管绳索的3.0 mAmps电流，并将其用作FE喷枪设计的基础。耦合了FE喷枪和THz TWT的仿真，并针对几种光束光学配置，研究了多头和单端FE喷枪光束特性对TWT增益，带宽和效率的影响。

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来源
《2010 IEEE International Vacuum Electronics Conference》|2010年|p.25-26|共2页
会议地点 Monterey CA(US);Monterey CA(US)
作者
Lockwood Nathaniel P.; Cartwright Keith L.; Gensheimer P. D.; Shiffler D. A.; dAubigny Christian Y.; Walker Christopher K.; Young Abraham; Fairchild Steven B.; Maruyama Benji;
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作者单位

High Power Microwave Division, Directed Energy Directorate, Air Force Research Laboratory, Kirtland AFB, NM, USA, 87117;

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会议组织
原文格式 PDF
正文语种 eng
中图分类基础理论;
关键词
ICEPIC; carbon fiber; carbon nanotubes; cathodes; electron beam; electron gun; field emission; particle-in-cell; terahertz; terahertz amplifier; traveling wave tube;

机译：ICEPIC;碳纤维;碳纳米管;阴极;电子束;电子枪;场发射;细胞内颗粒;太赫兹;太赫兹放大器;行波管;

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1. Investigation of Sine Groove Waveguide Slow Wave Structure for Terahertz Traveling Wave Tube [J] . Zhigang Lu, Ruidong Wen, Zhanliang Wang, Electron Devices, IEEE Transactions on . 2021,第2期

机译：太赫兹行波管正弦槽波导慢波结构研究
2. Meander-Line Slow-Wave Structure for High-Power Millimeter-Band Traveling-Wave Tubes With Multiple Sheet Electron Beam [J] . Torgashov Gennadiy V., Torgashov Roman A., Titov Vladimir N., IEEE Electron Device Letters . 2019,第12期

机译：多片电子束大功率毫米波行波管的曲折线慢波结构
3. A staggered double-vane slow-wave structure with double sheet electron beams for 340 GHz traveling wave tube [J] . Yang Jun, Cai Ke, Deng Guangsheng, Journal of Electromagnetic Waves and Applications . 2019,第10a12期

机译：具有双板电子束的交错双叶片慢波结构，适用于340 GHz行驶波管
4. Development of Field Emission Cathodes, Electron Gun and a Slow Wave Structure for a Terahertz Traveling Wave Tube [C] . Nathaniel P. Lockwood, Keith L. Cartwright, P. D. Gensheimer, IEEE International Vacuum Electronics Conference . 2010

机译：用于太赫兹行波管的场发射阴极，电子枪和慢波结构
5. Analysis of Non-Uniform Cathode Emission and Backward Wave Oscillations in a Traveling Wave Tube [D] . Jassem, Abhijit. 2021

机译：行进波管中的非均匀阴极发射和反向波振荡的分析
6. Hearing at threshold intensities: by slow mechanical traveling waves or by fast cochlear fluid pressure waves [O] . Haim Sohmer 2020

机译：按阈值强度听证：通过慢机械行驶波或快速耳蜗流体压力波
7. Theoretical analysis of a thermal plasma-loaded relativistic traveling wave tube having corrugated slow wave structure with solid electron beam [O] . Zahra Javadi, Shahrooz Saviz 2015

机译：固体电子束波纹慢波结构的等离子热容相对论行波管的理论分析
8. Modular Low-Heater-Power Cathode/Electron Gun Assembly for Microwave and Millimeter Wave Traveling Wave Tubes. [R] . Wintucky, Edwin G. 2000

机译：用于微波和毫米波行波管的模块化低加热器功率阴极/电子枪组件。

1.5: Development of field emission cathodes, electron gun and a slow wave structure for a terahertz traveling wave tube

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