摘要:
金属高频结构的射频击穿是引起功率下降和脉冲缩短的重要原因,是限制高功率微波(HPM)向更高功率、更长脉冲发展的重要因素.射频击穿的物理过程极其复杂,并且开展射频击穿研究对实验条件等要求高,因此粒子模拟是研究射频击穿的重要手段.通过在慢波结构表面设置爆炸发射电子和离子的方式模拟等离子体对一个 X波段的相对论返波振荡器(RBWO)和一个 Ka 波段的 RBWO 工作的影响.粒子模拟结果表明,对于分段式慢波结构,后段慢波结构产生等离子体会对电子束的调制造成影响,进而影响器件正常工作,引起微波功率下降.当等离子体由质量较轻的正离子和电子组成时,会对束波作用造成更大的影响,引起较大的输出功率下降.相同密度的射频击穿等离子体对Ka波段 RBWO 工作的影响大于对 X波段 RBWO 的影响.
Abstract:
RF breakdown of the metallic high frequency structures is an important reason of power decrease and pulse short-ening;it is also an important limitation of the development of high power microwave (HPM)to higher power and longer pulse. The physical process of RF breakdown is pretty complicated,and the experiment research of RF breakdown is hard to conduct, thus simulation research becomes an important method.We simulated the influence of plasma on the performance of an X-band RBWO and a Ka-band RBWO by setting electron and ion emission from the surface of SWSs.The simulation results show that the formation of plasma in back SWSs will influence the performance of RBWO by influencing the electron beam.When the plas-ma consists of light ions and electrons,it will bring stronger influence on the beam wave interaction,leading to power decrease in a high degree.The breakdown plasma has a bigger influence on the Ka-band RBWO than X-band RBWO.
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