摘要
基于输入微波与腔体耦合的等效电路模型,对于任意的腔体和电子束参数,建立了任意的输入微波与腔体耦合的速调管放大器输入腔的两种匹配状态的理论。建立了带有互感和电子束等效电阻和电容等参数的输入腔等效电路模型,推导了入射功率与反射功率的表达式,以及输入微波与带有电子束的输入腔耦合的完全匹配状态和任意的耦合这两种情形时输入功率和间隙电压关系的公式。推导了完全匹配状态时输入微波工作频率与输入腔有载品质因数的表达式。推导了复耦合系数等于1时输入腔外观品质因数与热腔品质因数的表达式,得出了当工作频率等于输入腔谐振频率,输入腔外观品质因数与热腔品质因数相等,且满足电子束等效电容远小于1时接近达到匹配状态,与传统理论基本一致。通过对比两种状态时的入射功率,得出了匹配状态时的入射功率小于复耦合系数等于1时入射功率的结论。通过对比复耦合系数等于1时新理论和传统理论的入射功率,得出不考虑电子束等效电容情况下两者相等的结论。采用二维粒子模拟的模型与匹配理论进行了对比,粒子模拟与理论基本一致。根据匹配理论找到了接近匹配状态的工作频率与有载品质因数以及较小的输入功率。
The matching theory based on an equivalent circuit model is outlined that self-consistently determines the modulation of a klystron input cavity for an arbitrary coupling of the input microwave to the cavity and arbitrary cavity parameters.The model including a mutual inductance,a beam equivalent capacitance and an equivalent resistance is established,along with two expressions for the input power and the reflected power.An expression is derived for the power required to maintain a desired cavity gap voltage for the case when the coupling is perfectly matched to the input microwave,and also for the case of arbitrary coupling.Expressions for the frequency of the input microwave and externally-loaded quality factor(Q)leading to the matching condition are also derived.When the complex coupling coefficient equals 1,expressions are made for the beam-loaded Q and externally-loaded Q.It is concluded that when the complex coupling coefficient equals 1,the operating frequency equals to the resonant frequency of the input cavity,the beam-loaded Q equals to the externally-loaded Q,and the beam equivalent capacitance is much less than 1 will lead to the approximate matching condition.This conclusion is consistent with the traditional theory.By comparing the input power,it is concluded that the input power corresponding to the matching condition is less than the input power corresponding to the approximate matching condition.When the complex coupling coefficient equals 1,comparison shows that if the beam capacitance is neglected,the input power corresponding to the new theory equals to the input power corresponding to the traditional theory.By the comparison of the 2D PIC simulation and the matching theory,we can get the approximate value of the beam impedance.We have found the frequency of the input microwave,the externally-loaded Q and the minimum input power according to the matching theory.
作者
何琥
李士锋
刘振帮
He Hu;Li Shifeng;Liu Zhenbang(National Key Laboratory of Science and Technology on Advanced Laser and High Power Microwave,Institute of Applied Electronics,CAEP,Mianyang 621900,China)
出处
《强激光与粒子束》
CAS
CSCD
北大核心
2024年第10期36-43,共8页
High Power Laser and Particle Beams
基金
国家自然科学基金项目(62301519)
高功率微波技术重点实验室基金项目(JCKYS2021212013,61426050105)。
关键词
输入腔匹配理论
电子束等效电容
热腔品质因数
热腔有载品质因数
复耦合系数
matching theory of klystron input cavity
beam equivalent capacitance
cavity-beam-loaded quality factor
beam-externally-loaded quality factor
complex coupling coefficient