Simulation and Experimental Research of a Novel Vircator
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Abstract
A new configuration of an axially-extracted vircator with three resonant cavities is put forward and optimized by simulation with the PIC code. The output power of over 1GW is obtained at around 4.1GHz in the experiment, in agreement well with the PIC simulation results. The beam to wave power conversion efficiency is more than 6.6%.
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LI Zhi-Qiang, ZHONG Hui-Huang, FAN Yu-Wei, SHU Ting, YANG Jian-Hua, YUAN Cheng-Wei, XU Liu-Rong, ZHAO Yan-Song. Simulation and Experimental Research of a Novel Vircator[J]. Chin. Phys. Lett., 2008, 25(7): 2566-2568.
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LI Zhi-Qiang, ZHONG Hui-Huang, FAN Yu-Wei, SHU Ting, YANG Jian-Hua, YUAN Cheng-Wei, XU Liu-Rong, ZHAO Yan-Song. Simulation and Experimental Research of a Novel Vircator[J]. Chin. Phys. Lett., 2008, 25(7): 2566-2568.
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LI Zhi-Qiang, ZHONG Hui-Huang, FAN Yu-Wei, SHU Ting, YANG Jian-Hua, YUAN Cheng-Wei, XU Liu-Rong, ZHAO Yan-Song. Simulation and Experimental Research of a Novel Vircator[J]. Chin. Phys. Lett., 2008, 25(7): 2566-2568.
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LI Zhi-Qiang, ZHONG Hui-Huang, FAN Yu-Wei, SHU Ting, YANG Jian-Hua, YUAN Cheng-Wei, XU Liu-Rong, ZHAO Yan-Song. Simulation and Experimental Research of a Novel Vircator[J]. Chin. Phys. Lett., 2008, 25(7): 2566-2568.
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