首页|期刊导航|强激光与粒子束|低磁场高效率同轴双模相对论切伦科夫振荡器

低磁场高效率同轴双模相对论切伦科夫振荡器OA

Coaxial dual-mode relativistic Cherenkov oscillator with low magnetic field and high-efficiency

中文摘要英文摘要

为了提高高功率微波源在低导引磁场下的效率,提出了一种低磁场高效率同轴双模相对论切伦科夫振荡器.该器件工作在同轴准TEM模式与同轴TM01 模式下,利用双模工作机制,实现了低磁场下(<0.4 T)的高效率输出.在粒子模拟中,导引磁场 0.35 T时,器件实现了功率 3 GW的微波输出、束-波转换效率 40%.同时,针对实验中遇到的射频击穿现象,通过增加慢波结构周期数量来提高功率容量,并通过仿真和实验进行验证.最终实验中在 0.37 T磁场下,输出微波功率 2.85 GW,脉宽 57 ns,转换效率 34%.在低磁场下获得的实验结果为高功率微波系统小型化的发展提供了强力支撑.

[Background]With the development of high-power microwave technology,the demand for high-power microwave system has moved towards miniaturization and compactness.Realizing high-efficiency and high-power operation under low magnetic field is an important trend for miniaturization and compactness.[Purpose]In order to improve the power and efficiency of high-power microwave source under low guiding magnetic field(<0.4 T),a high-efficiency coaxial dual-mode relativistic Cherenkov oscillator(RCO)under a low guiding magnetic field is proposed.[Methods]Traditional over-mode RCO is mostly limited to single mode operation,which greatly restricts the further improvement of efficiency.The proposed RCO adopts the dual-mode working mechanism,works in both coaxial quasi-TEM mode and TM01 mode.The dual-mode working mechanism allows the electron beam to interact with multiple modes,thereby improving power capacity and efficiency simultaneously.In particle-in-cell simulation,when the guiding magnetic field is only 0.35 T,the RCO achieves a microwave output of 3 GW with a beam-wave conversion efficiency of 40%.At the same time,aiming at the RF breakdown phenomenon in the experiment,the power capacity is improved by increasing the number of slow wave structure periods,which is verified by both simulation and experiment.[Results]In the experiment,under a magnetic field of 0.37 T,the output power is 2.85 GW with a pulse width of 57 ns and a conversion efficiency of 34%.[Conclusions]Both simulation and experimental results show that the proposed RCO can work stably with high efficiency and high power under the low magnetic field,and the results obtained under the low magnetic field provide strong support for the development of miniaturization of high-power microwave systems.

周文刚;邓如金;张鹏;李家文;张珂嘉

国防科技大学 前沿交叉学科学院,长沙 410073国防科技大学 前沿交叉学科学院,长沙 410073国防科技大学 前沿交叉学科学院,长沙 410073国防科技大学 前沿交叉学科学院,长沙 410073国防科技大学 前沿交叉学科学院,长沙 410073

信息技术与安全科学

高功率微波低磁场高效率相对论切伦科夫振荡器双模工作

high power microwavelow magnetic fieldhigh efficiencyrelativistic Cherenkov oscillatordual-mode operation

《强激光与粒子束》 2026 (2)

43-48,6

10.11884/HPLPB202638.250182

评论