H. Jung, S. Min, S. Shin, G. Park, J. Kim, Y.S. Lee, J. So
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引用次数: 0
摘要
RBVVO通过反向波与电子束之间较长的相互作用区域而具有较高的效率。但由于模式竞争、射频击穿等原因,在rbwo实验中经常出现脉冲缩短问题(S.D. Korovin et al., 2000)。在我们之前对100MW RBWO的研究中,模式竞争可以取决于波束半径和二极管阻抗(F. Hegeler et al., 2000)。设计并仿真了一种避免模式竞争的x波段0.5GW RBWO,采用10个均匀波纹,平均半径为14.5mm,振幅为2.5mm。在施加电压为500kV,电流为5.2kA时,通过MAGIC仿真估计出520MW的稳定射频功率。
Experimental Study on a 0.5 GW Relativistic Backward Wave Oscillator (RBWO)
A RBVVO is capable of high efficiency by a relatively long interaction region between a backward wave and an electron beam. But the pulse shortening problem occurs frequently in experiments of RBWOs because of the mode competition, the RF breakdown and so on (S.D. Korovin et al., 2000). In our previous research of the 100MW RBWO, it shows that the mode competition can depends on the beam radii and the diode impedance (F. Hegeler et al., 2000). An X-band 0.5GW RBWO avoiding a mode competition is designed and simulated, using 10 uniform ripples that the average radius is 14.5mm and the amplitude is 2.5mm. 520MW stable RF power is estimated by MAGIC simulation when the applied voltage is 500kV and the current is 5.2kA..
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