Study of the oscillation startup time in a G-band EIO based on a pseudospark-sourced electron beam

机译：基于伪火花源电子束的G波段EIO中振荡启动时间的研究

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Extended interaction oscillator (EIO) operated in the terahertz range puts greater demand on current density and brightness of electron beam. The pseudospark (PS)-sourced electron beam is a good candidate to drive such high frequency EIOs as it has a very high combined beam current density and brightness. This paper presents the numerical studies of oscillation startup time in a G-band EIO based on a pseudospark-sourced electron beam. It was found that the G-band EIO circuit's oscillation startup time and efficiency are relative to the gap length of it with the same period. The authors also present the latest results that demonstrate the successful design and optimization of G-band EIO driven by a 402 mA (500 A/cm²) PS-sourced electron beam. A peak power over 1.27 kW at 184 GHz was achieved using an electron beam, which can be generated by PS discharge.

机译：在太赫兹范围内工作的扩展相互作用振荡器（EIO）对电流密度和电子束亮度提出了更高的要求。源于伪火花（PS）的电子束具有很高的组合束电流密度和亮度，因此是驱动此类高频EIO的理想选择。本文介绍了基于伪火花源电子束的G波段EIO中的振荡启动时间的数值研究。结果发现，G波段EIO电路的振荡启动时间和效率与其在相同周期内的间隙长度有关。作者还介绍了最新结果，这些结果证明了由402 mA（500 A / cm ^{2 ）PS源电子束驱动的G波段EIO的成功设计和优化。使用电子束可以在184 GHz处获得超过1.27 kW的峰值功率，该功率可以通过PS放电产生。}

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《IEEE International Vacuum Electronics Conference》|2017年|1-2|共2页
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Ruibin Peng; Liangjie Bi; Zhiwei Chang; Fanbo Zeng; Yong Yin; Bin Wang; Lin Meng;
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Electron beams; Oscillators; Discharges (electric); Current density; Optimization; Magnetic fields; Cathodes;

机译：电子束;振荡器;放电（电）;电流密度;优化;磁场;阴极;

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专利

1. Preliminary design and optimization of a G-band extended interaction oscillator based on a pseudospark-sourced electron beam [J] . Yin Y., He W., Zhang L., Physics of plasmas . 2015,第7期

机译：基于伪火花源电子束的G波段扩展互作用振荡器的初步设计和优化
2. Study of the beam profile and position instability of a post-accelerated pseudospark-sourced electron beam [J] . Zhao J., Yin H., Zhang L., Physics of plasmas . 2017,第3期

机译：梁轮廓和加速后伪气柱源电子束的位置不稳定性研究
3. Simulation and Experiments of a -Band Extended Interaction Oscillator Based on a Pseudospark-Sourced Electron Beam [J] . Yin Yong, He Wenlong, Zhang Liang, Electron Devices, IEEE Transactions on . 2016,第1期

机译：基于伪火花源电子束的带扩展互作用振荡器的仿真与实验
4. Study of the oscillation startup time in a G-band EIO based on a pseudospark-sourced electron beam [C] . Ruibin Peng, Liangjie Bi, Zhiwei Chang, IEEE International Vacuum Electronics Conference . 2017

机译：基于伪气柱源电子束的G波段EIO中的振荡启动时间研究
5. A measurement of hadron production cross-sections for the simulation of accelerator neutrino beams and a search for muon neutrino to electron neutrino oscillations in the difference of the squared mass in approximately the 1 squared electron volt region [D] . Schmitz, David W. 2008

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7. Preliminary design and optimization of a G-band extended interaction oscillator based on a pseudospark-sourced electron beam [O] . Yin Y, He W, Zhang L, 2015

机译：基于伪火花源电子束的G波段扩展互作用振荡器的初步设计与优化

Study of the oscillation startup time in a G-band EIO based on a pseudospark-sourced electron beam

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