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X波段新型低阻抗高功率微波源的模拟研究
引用本文:闫孝鲁,张晓萍,李阳梅. X波段新型低阻抗高功率微波源的模拟研究[J]. 物理学报, 2016, 65(13): 138402-138402. DOI: 10.7498/aps.65.138402
作者姓名:闫孝鲁  张晓萍  李阳梅
作者单位:1. 国防科学技术大学光电科学与工程学院, 长沙 410073;2. 测量通信总体研究所, 北京 100094
基金项目:国家高技术研究发展计划(批准号: 2015AA8037074A)资助的课题.
摘    要:提出了一种新型低阻抗高功率微波源,能在单个器件内产生两束锁相的相干高功率微波,对两束相干微波进行功率合成有望在单个高功率微波器件中实现更高的功率输出.粒子模拟结果显示,在电压687 k V、磁场0.8 T时,该微波源整体阻抗36?,两束微波的频率都为9.72 GHz,输出功率分别为1.20 GW和2.58 GW,功率效率分别为28%和30%;两束输出微波之间频率抖动小于±3 MHz,相位差抖动小于±3?.

关 键 词:高功率微波源  低阻抗  粒子模拟  功率合成
收稿时间:2016-03-04

Particle-in-cell simulation of a new X-band low-impedance high power microwave source
Yan Xiao-Lu,Zhang Xiao-Ping,Li Yang-Mei. Particle-in-cell simulation of a new X-band low-impedance high power microwave source[J]. Acta Physica Sinica, 2016, 65(13): 138402-138402. DOI: 10.7498/aps.65.138402
Authors:Yan Xiao-Lu  Zhang Xiao-Ping  Li Yang-Mei
Affiliation:1. College of Optoelectronic Science and Engineering, National University of Defense Technology, Changsha 410073, China;2. Institute of Tracking and Telecommunications Technology, Beijing 100094, China
Abstract:High power microwave (HPM) source is attractive in generating gigawatt (GW) class microwaves based on the beam-wave interaction. Generally, HPM source with a high beam-wave conversion efficiency has a higher impedance. To improve the single-tube output power of HPM source, reducing the impedance of the device and increasing its power capacity are necessary. In this paper, a new low-impedance HPM source is proposed and proved to be capable of generating two phase-locked high power microwaves, which makes it promising to realize a higher combined power in a single HPM device.The new low-impedance HPM device consists of a two-cavity TKA (denoting the outer sub-source in the following) and a multiwave Cerenkov generator (referring to the inner sub-source below) inserted in the TKA inner conductor. These two sub-sources are connected in parallel and share a common magnetic field. A dual-concentric annular cathode is used in this microwave source, which is capable of emitting two concentric annular electron beams and driving the internal and external sub-source simultaneously. The advantages of this device are reducing the impedance and improving the injection electric power. When a voltage pulse is applied to the diode, part of microwaves generated in the inner subsource will leak into the outer sub-source (i.e., TKA) through the A-K gap. By amplifying the leakage microwaves, the TKA will be easily locked by the inner sub-source. Considering the fact that the microwave source consists of two sub-sources, the power capacity will also be greatly improved.As a result, particle-in-cell simulation indicates that when the diode voltage is 687 kV and the axial magnetic field is 0.8 T, two microwave beams that have a nearly identical frequency of 9.72 GHz and output powers of 1.20 GW and 2.58 GW respectively, are generated. The corresponding power conversion efficiencies are 28% and 30%, respectively. The frequency difference between these two microwaves fluctuates within ± 3 MHz and their phase difference is not in excess of ± 3°. When the diode voltage changes from 665 kV to 709 kV, frequency difference between the two sub-sources fluctuates within ± 3 MHz and their phase difference fluctuation is within ± 5° in one voltage burst; the phase difference changes 10° in this voltage range. The impedance of this HPM source is as low as 36 Ω.To sum up, the new HPM source proposed in this paper has a lower impedance and higher power capacity. The phase difference between the inner sub-source and the outer sub-source is very stable and favorable for the coherent power combination, which indicates that the new HPM source promises to realize a higher output power in a single-tube device.
Keywords:high power microwave source  low-impedance  particle-in-cell simulation  power combination
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