Optimization of multi-gap extended output cavity for a G-band sheet beam extended interaction klystron

机译：用于G波段薄梁扩展交互klystron的多间隙扩展输出腔的优化

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For a G-band sheet beam extended interaction klystron (SBEIK), an eight-gap extended output cavity that operates in the 2π mode, is optimized by using an equivalent method, in which the external load is replaced by a lossy region in 3D particle-in-cell model. The optimized eight-gap extended output cavity has 681.9 unloaded Q, 952 external Q and 397.3 loaded Q at 220 GHz. The simulations based on the prebunched sheet beam predict that the output power and bandwidth of the eight-gap extended output cavity are larger than 600 W and 200 MHz, respectively. It is efficient for rapidly designing the G-band SBEIK.

机译：对于G波段薄片束延伸相互作用klystron（sbeik），通过使用等效方法优化在2π模式下操作的八个间隙延伸输出腔，其中外部负载由3D粒子中的有损区域取代 -in-cell模型。优化的八间隙延伸输出腔具有681.9卸载Q，952外部Q和397.3加载的Q，为220 GHz。基于预蹄纸光束的模拟预测，八个间隙延伸输出腔的输出功率和带宽分别大于600W和200MHz。它是快速设计G波段Sbeik的效率。

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《International Conference on Infrared, Millimeter, and Terahertz Waves》|2014年||共2页
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Shifeng Li; Zhaoyun Duan; Fei Wang; Zhanliang Wang; Jin Xu; Yubin Gong;
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中图分类无线电设备、电信设备;
关键词
Q-factor; klystrons; 3D particle-in-cell model; G-band SBEIK; G-band sheet beam extended interaction klystron; bandwidth 200 MHz; eight-gap extended output cavity; equivalent method; frequency 220 GHz; lossy region; multigap extended output cavity; optimized eight-gap extended output cavity; prebunched sheet beam; Cavity resonators; Couplers; Educational institutions; Klystrons; Optimization; Power amplifiers; Power generation;

机译：q-factor;klystrons;3D粒子内模型;G频段sbeik;G波段纸张束延伸相互作用klystron;带宽200 MHz;八个间隙延伸输出腔;等效方法;频率220 GHz;有损地区;多脂扩展输出腔;优化的八间隙延伸输出腔;预匹配的纸梁;腔谐振器;耦合器;教育机构;Klystrons;优化;功率放大器;发电;
入库时间 2022-08-21 09:41:36

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专利

1. Optimization and Improvement of Output Performance in G-Band Extended Interaction Klystron [J] . Li Renjie, Ruan Cunjun, Zhang Huafeng, Journal of Infrared, Millimeter and Terahertz Waves . 2019,第1期

机译：G波段扩展交互Klystron中输出性能的优化和提高
2. Design and optimization of G-band extended interaction klystron with high output power [J] . Li Renjie, Ruan Cunjun, Zhang Huafeng Physics of plasmas . 2018,第3期

机译：高输出功率的G波段扩展交互Klystron的设计与优化
3. Increasing the bandwidth of an extended interaction klystron at 0.34 THz by staggered tuning of the multi-gap cavities [J] . Li Shuang, Wang Dongyang, Teng Yan EPL . 2018,第3a4期

机译：通过交错的调谐，在0.34 ZHz上增加了延伸相互作用klystron的带宽，多个间隙腔
4. Optimization of multi-gap extended output cavity for a G-band sheet beam extended interaction klystron [C] . Shifeng Li, Zhaoyun Duan, Fei Wang, International Conference on Infrared, Millimeter, and Terahertz Waves . 2014

机译：G带片束扩展相互作用速调管的多间隙扩展输出腔的优化
5. Extended Hand Attributes for Touch Input, Touch Output and Touchless Interaction [D] . Gupta, Aakar. 2018

机译：用于触摸输入，触摸输出和非触摸交互的扩展手属性
6. Broadband and high-power terahertz radiation source based on extended interaction klystron [O] . Renjie Li, Cunjun Ruan, Ayesha Kosar Fahad, -1

机译：基于扩展相互作用速调管的宽带高功率太赫兹辐射源
7. Primary Design of Extended Interaction Klystron with Multi-Gap Cavity at 225 GHz [O] . Kaichun Zhang, Ke Chen, Qian Xu, 2018

机译：225 GHz的多间隙腔扩展交互Klystron的主要设计

Optimization of multi-gap extended output cavity for a G-band sheet beam extended interaction klystron

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