【作者】 吴文状；

【导师】 阴和俊； 李实；

【作者基本信息】 中国科学院研究生院（电子学研究所） ， 电磁场与微波技术， 2007， 硕士

【摘要】 随着卫星事业的蓬勃发展，空间行波管具有广阔的发展和应用前景。由于特殊的工作环境，高效率对于空间行波管具有极其重要的意义。本文从提高空间行波管的效率出发，对电子枪和慢波线的设计以及影响注波互作用特性的几个因素进行了分析，模拟计算结果在制管实验中进行了验证，主要工作如下：(1)介绍了电子枪的一种优化方法，首先利用综合迭代法初步确定用于高效率行波管的电子枪几何尺寸，然后考虑电子枪设计对导流系数、注腰半径、层流性等参数提出的要求，建立了评价电子注性能优劣的目标函数以量化设计结果，最后利用EGUN软件采用一定的优化方法对目标函数进行优化；应用该优化方法设计了一支电子枪，并讨论了磁聚焦系统与该电子枪的匹配。在制管实验中对电子枪和磁聚焦系统进行了验证，实验结果证明了该电子枪优化方法的有效性。(2)分析了夹持杆对螺旋线慢波系统螺旋对称性的影响，利用HFSS软件提供的主一从边界条件，将慢波线计算模型由一个周期长度缩短为1／3周期长度，在同样的计算精度下，计算时间缩短为原来的三分之一；设计了工作于一定频带内的慢波系统，计算结果达到了设计要求；加工了该慢波系统，运用行波法和微扰法进行慢波线冷测实验，实验结果与计算结果做比较，验证了改进后计算方法的可行性。(3)使用TWTCAD软件包中的Christine一维程序分析了几个因素对空间行波管互作用特性的影响；做了样管热测实验，根据实测数据对设计做出了相应的调整，最后各项指标达到了设计要求，同时也验证了TWTCAD软件包中Christine一维程序的有效性，尽管程序的计算结果跟实际值相比存在一定的误差，但趋势是正确的，说明模拟计算对制管具有一定的指导意义。更多还原

【Abstract】 Space traveling wave tube (TWT) have a potential application in satelliteindustry in the future. Due to the extremely rigorous work condition, high efficiencyplay a key role in the performance of the space TWT. This dissertation is focused onseveral hands of the design of a high efficient space TWT, the main contents of thisdissertation can be concluded as follows:(1) A new method for optimizing the electron beam performance is introduced.At first, the so-called ’synthesis method’ used for Pierce gun design was employed toget the prototype gun. Secondly, in order to evaluate the electron beam performance,an objective function is defined, which can take perveance, beam waist and laminarityinto account. Finally, a direct optimization method and the EGUN program areapplied to optimize the objective function.An electron gun is obtained by the above method, and then the dissertation tooka short discussion about how to design a periodic permanent magnetic focusingsystem for matching the above-mentioned electron gun. In the electron gunexperiment, the beam performance is consistent with the initial requirement very well.This result is an evident example that exhibits the optimization method beingeffective.(2) A detailed analysis of the influences on the helical symmetry produced fromthe support rods in the helical slow-wave structure (SWS) is studied. By use of themaster-slave boundary condition of HFSS, at the condition of keeping the sameprecision, reducing the one pitch helical model to one-third pitch that cancorrespondingly shorten the original running time to one-third. The SWS used in aspace TWT was designed and the simulation result has met with the initial target.Moreover, the SWS is manufactured and its dispersion characteristic andinteraction impedance are tested by the traveling-wave method and non-resonant perturbation method respectively. The measurement data agree with the simulationresult.(3) Using the Christine 1D program in TWTCAD (a TWT simulation software),the variation of interaction characteristics with several parameters is analyzed. Nineexperimental tubes have been manufactured, and the hot test is finished in about oneyear. During this period, the tube design parameters were adjusted according to thesimulation and experiment results. At last, all targets are satisfied. Meanwhile, theavailability of the Christine 1D program in TWTCAD is verified. Although thesimulation result is not very precise, it still can provide a qualitative guidance to thedevice engineers.更多还原