Measurement of S-Band Microwave Gas Breakdown by Enhancing the Electric Field in a Waveguide

Yang Y.-M.; Yuan C.-W.; Qian B.-L.

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Measurement of S-Band Microwave Gas Breakdown by Enhancing the Electric Field in a Waveguide

机译：通过增强波导中的电场来测量S波段微波气体击穿

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With the development of narrow-band high-power-microwave (HPM) technology, air breakdown has become a serious problem that concerns to the HPM applications. A new method is presented in this paper to determine the electric field of the microwave air breakdown near the atmosphere pressures. Two metal pins were used to strengthen the microwave electric field in a sealed waveguide, putting on the symmetry axis. Some parameters such as gas pressure, temperature, and humidity could be changed conveniently to achieve gas breakdown. Experiment was carried out at the S-band (2.86-GHz) microwave of 180-ns duration and 5-MW peak power, and typical phenomena of plasmas introduced by microwave are analyzed. Furthermore, a new definition of breakdown threshold has been proposed based on breakdown probability, and the electric field threshold is also analyzed.

机译：随着窄带高功率微波（HPM）技术的发展，空气击穿已成为HPM应用程序关注的严重问题。本文提出了一种确定大气压力附近微波空气击穿电场的新方法。使用两个金属销钉在对称轴上加强密封波导中的微波电场。可以方便地更改某些参数（例如气压，温度和湿度）以实现气体分解。在180 ns持续时间和5 MW峰值功率的S波段（2.86- GHz）微波上进行了实验，并分析了微波引入的等离子体的典型现象。此外，基于击穿概率提出了击穿阈值的新定义，并对电场阈值进行了分析。

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来源
《Plasma Science, IEEE Transactions on》 |2012年第12期|p.3427-3432|共6页
作者
Yang Y.-M.; Yuan C.-W.; Qian B.-L.;
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作者单位

College of Optoelectronic Science and Engineering, National University of Defense Technology (NUDT) , Changsha, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Air breakdown; electric field enhancement; microwave; waveguide;

机译：空气击穿;电场增强;微波;波导;

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1. A modified field model of waveguide reflection dielectric resonator for microwave measurements of dielectric properties [J] . Jyh Sheen Journal of Applied Physics . 2008,第3期

机译：微波反射介电特性的波导反射介质谐振器的改进场模型
2. Low Interface Trap Density and High Breakdown Electric Field SiN Films on GaN Formed by Plasma Pretreatment Using Microwave-Excited Plasma-Enhanced Chemical Vapor Deposition [J] . T. Watanabe, A. Teramoto, Y. Nakao, IEEE Transactions on Electron Devices . 2016,第4期

机译：通过微波激发等离子体增强化学气相沉积等离子体预处理在GaN上形成低界面陷阱密度和高击穿电场的SiN膜
3. Low-Interface-Trap-Density and High-Breakdown-Electric-Field SiN Films on GaN Formed by Plasma Pretreatment Using Microwave-Excited Plasma-Enhanced Chemical Vapor Deposition [J] . Watanabe T., Teramoto A., Nakao Y., Electron Devices, IEEE Transactions on . 2013,第6期

机译：通过微波激发等离子体增强化学气相沉积等离子体预处理在GaN上形成低界面陷阱密度和高击穿电场的SiN膜
4. Measurements of breakdown pressure wave and cathode and anode electric field up to electrical breakdown in PP film [C] . Fukuma, M., Nagao, Electrical Insulation and Dielectric Phenomena, 1997. IEEE 1997 Annual Report., Conference on . 1997

机译：测量击穿压力波以及PP膜中直至电击穿的阴极和阳极电场
5. INTENSE MICROWAVE PULSE PROPAGATION THROUGH GAS BREAKDOWN PLASMAS IN A WAVEGUIDE. [D] . BYRNE, DOUGLAS PAUL. 1986

机译：通过气体分解等离子体中的微波在脉冲中的快速传播。
6. Waveguide Characterization of S-Band Microwave Mantle Cloaks for Dielectric and Conducting Objects [O] . Antonino Vitiello, Massimo Moccia, Gian Paolo Papari, -1

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7. Waveguide Characterization of S-Band Microwave Mantle Cloaks for Dielectric and Conducting Objects [O] . Vitiello, Antonino, Moccia, Massimo, Papari, Gian Paolo, 2016

机译：用于介质和导电物体的s波段微波衬垫的波导特性
8. Microwave Applications to Freeze Dehydration. Gaseous Breakdown vs. Electric Field Strength. [R] . gould,james w. kenyon,ernest m. 1971

机译：微波应用于冷冻脱水。气体击穿与电场强度。

Measurement of S-Band Microwave Gas Breakdown by Enhancing the Electric Field in a Waveguide

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