Experimental investigation of an l band all cavity axial extraction relativistic magnetron

2017 IEEE 21st International Conference on Pulsed Power (PPC) Pub Date : 2017-06-01 DOI:10.1109/PPC.2017.8291163

F. Qin, L. Lei, S. Xu, C. Li, D. Wang

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Abstract

Experimental results of an L band all cavity axial extraction relativistic magnetron (RM) working at 1.57 GHz is presented. In this 6-cavity RM configuration, microwave from two adjacent cavities is coupled into an axially oriented coaxial sector waveguide through radial slots on the cavities. This configuration is more compact because only three sector waveguides are added outside the magnetron cavity without increasing the radial dimension significantly. Simulation results reveal that this tube could generate a microwave power of 700 MW at the frequency of 1.57 GHz, corresponding to a power conversion efficiency of 50% when employing an electron beam of 350 kV and 4.0 kA. This tube is tested on a compact Marx generator in our lab. In experiment, this tube could generate a microwave power of over 500 MW at 1.57 GHz when employing guiding magnetic field of 0.22 T and input beam voltage of 345 kV and current of 4.8 kA, with a corresponding efficiency of about 30%. Experimental results reveal that this tube is a preferred configuration for a compact relativistic magnetron with relatively high power conversion efficiency.

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l波段全腔轴向提取相对论磁控管的实验研究

介绍了工作频率为1.57 GHz的L波段全腔轴向提取相对论磁控管的实验结果。在这种6腔RM配置中，来自两个相邻腔的微波通过腔上的径向槽耦合到一个轴向同轴扇形波导中。这种结构更加紧凑，因为在磁控管腔外只添加了三个扇形波导，而不会显著增加径向尺寸。仿真结果表明，该管在1.57 GHz频率下可产生700 MW的微波功率，在350 kV、4.0 kA的电子束下，功率转换效率可达50%。该管在我们实验室的小型马克思发生器上进行了测试。在实验中，该管在0.22 T的引导磁场、345 kV的输入波束电压、4.8 kA的输入电流条件下，在1.57 GHz下可产生500 MW以上的微波功率，效率约为30%。实验结果表明，该管是紧凑型相对论磁控管的首选结构，具有较高的功率转换效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE 21st International Conference on Pulsed Power (PPC)

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