X波段新型低阻抗高功率微波源的模拟研究

删除或更新信息，请邮件至freekaoyan#163.com(#换成@)

本站小编 Free考研考试/2021-12-29

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 kV、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

English Abstract

Particle-in-cell simulation of a new X-band low-impedance high power microwave source

Yan Xiao-Lu^1,2,
Zhang Xiao-Ping¹,
Li Yang-Mei¹

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

Fund Project:Project supported by the National High Technology Research and Development Program of China (Grant No. 2015AA8037074A).

Received Date:04 March 2016

Accepted Date:31 March 2016

Published Online:05 July 2016

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 .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

全文HTML

--> --> -->

相关话题/微波 电压 功率 阻抗 粒子

领限时大额优惠券,享本站正版考研考试资料!
优惠券领取后72小时内有效，10万种最新考研考试考证类电子打印资料任你选。涵盖全国500余所院校考研专业课、200多种职业资格考试、1100多种经典教材，产品类型包含电子书、题库、全套资料以及视频，无论您是考研复习、考证刷题，还是考前冲刺等，不同类型的产品可满足您学习上的不同需求。 ...
考试优惠券本站小编 Free壹佰分学习网 2022-09-19
一种基于von Neumann熵的双路径纠缠量子微波信号生成质量评估方法
摘要:针对目前没有合适的方法从产生方来表征纠缠量子微波信号的质量好坏,提出了一种基于vonNeumann熵的双路径纠缠量子微波信号生成质量评估方法.利用双模压缩真空态描述了纠缠量子微波的信号格式,给出了光子数与压缩参量之间的函数关系,以熵评估纠缠态信号所占比例,分析了熵与压缩参量和光子数之间的关系. ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
高功率梯度掺杂增益光纤温度特性理论研究
摘要:在高功率光纤激光器中,增益光纤的热效应是限制激光功率进一步提高的重要因素之一.为了降低增益光纤的最高温度,提出了一种通过改变增益光纤的掺杂浓度分布,分散光纤激光的热效应,从而提高激光输出功率的方法.基于速率方程模型和热传导模型,在光纤激光放大器输出功率大致相当的情况下,对几种不同掺杂方式下增益 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
应用粒子图像测试技术测量球床多孔介质单相流动的流场
摘要:多孔介质在生产生活以及科技发展中的应用十分广泛,随着能源、化工、冶金和原子能等领域技术的发展,以及近代工农业生产技术的进步,大量多孔介质的传热传质问题逐渐出现,进一步促进了多孔介质学科的形成和发展,使其成为当今科学技术中令人瞩目的研究热点之一.通过实验获得准确的实验图像和数据,并使用相应软件对 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
多粒子纠缠的保护方案
摘要:量子纠缠是量子信息的重要物理资源.然而当量子系统与环境相互作用时,会不可避免地产生消相干导致纠缠下降,因此保护纠缠不受环境的影响具有重要意义.振幅衰减是一种典型的衰减机制.如果探测环境保证没有激发从系统中流出,即视为对系统的一种弱测量.本文基于局域脉冲序列和弱测量,提出了一种可以保护多粒子纠缠 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
硅单粒子位移损伤多尺度模拟研究
摘要:本文结合分子动力学方法和动力学蒙特卡罗方法,研究了单个粒子入射硅引起的位移损伤缺陷的产生和演化过程;基于Shockley-Read-Hall理论计算了单个粒子入射引起的位移损伤缺陷导致的泄漏电流增加及其演化过程,比较了缺陷退火因子与泄漏电流退火因子之间的差异,并将计算结果与实验值进行了对比.结 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
利用激光光梯度力消除气溶胶雾霾粒子的机理研究
摘要:针对气溶胶雾霾粒子在大气流中所受力的平衡体系(旋转升力平衡重力,粒子与粒子之间依靠斥力形成稳定的网状的力平衡体系)的问题,提出了用激光光梯度力破坏力平衡进而消除雾霾的新机理.首先,根据牛顿第二定理,得到了粒子所受力的非线性方程组,应用Runge-Kutta法积分求解了雾霾颗粒在大气流中所受的主 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
加载功率与壳温对AlGaN/GaN高速电子迁移率晶体管器件热阻的影响
摘要:结温是制约器件性能和可靠性的关键因素,通常利用热阻计算器件的工作结温.然而,器件的热阻并不是固定值,它随器件的施加功率、温度环境等工作条件的改变而变化.针对该问题,本文以CREE公司生产的高速电子迁移率晶体管(HEMT)器件为研究对象,利用红外热像测温法与SentaurusTCAD模拟法相结合 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
不同22集束聚焦方式下高功率激光靶面光强分布特性
摘要:大口径高功率激光装置为提高激光靶面的光强强度,通常采用22集束聚焦的模式进行打靶.大口径楔形透镜是组成22集束聚焦系统的核心元件,可分为二维离轴楔形透镜、一维离轴楔形透镜和非离轴楔形透镜3类.为了获得理想靶面光强分布,基于这3类楔形透镜,对比研究相应22集束聚焦系统下的靶面光强分布特性.研究结 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
非球形椭球粒子参数变化对光偏振特性的影响
摘要:针对自然界中多数沙尘、烟煤粒子的非球形问题,在球形粒子偏振特性的基础上,进一步研究非球形椭球粒子的折射率、有效半径、粒子形状等参数变化对光偏振特性的影响,采用基于T矩阵的非球形粒子仿真方法,模拟非偏振光经椭球粒子传输后光的偏振特性及其与球形粒子间的差异,并以实际沙尘、海洋、烟煤三种气溶胶粒子为 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29
纳米静态随机存储器低能质子单粒子翻转敏感性研究
摘要:针对65,90,250nm三种不同特征尺寸的静态随机存储器基于国内和国外质子加速器试验平台,获取了从低能到高能完整的质子单粒子翻转截面曲线.试验结果表明,对于纳米器件1MeV以下低能质子所引起的单粒子翻转截面比高能质子单粒子翻转饱和截面最高可达3个数量级.采用基于试验数据和器件信息相结合的方法 ...
中科院物理研究所本站小编 Free考研考试 2021-12-29