Disk-loaded waveguide is a kind of slow-wave structure with long history.
导是一种历史悠久的慢波结构。
The characteristics of meander-line slow-wave structure are studied in the paper.
本文对微带型曲折线慢波结构的特性参数进行了分析。
The equipment has been used to assemble helix-type slow-wave structure packages, and can meet the requirements of the manufacture of TWTs.
本文提出了一种用于行波管螺旋慢波组件的挤压新方法并自制了相应的冷挤压设备样机。
In chapter two, the dispersion of a type of slow-wave structure and the photonic crystal band gap structures are discussed in this chapter.
第三章先介绍了一种新型的全金属慢波结构,并对具有光子晶体带隙结构的慢波结构作了分析。
With coaxial structure, it has no low-cut frequency. Therefore it might be one of the middle bandwidth slow-wave structure with high-power capacity.
由于其采用同轴结构,不具有低截止频率,因此可能是一种能够同时满足高功率容量和较宽带宽要求的慢波结构。
In this dissertation, we have made detailed theoretical and experimental study on the high-frequency characteristic of the coaxial interlaced disk-loaded slow-wave structure.
本文从理论分析和实验研究两方面着手,对同轴交错膜片加载慢波结构的高频特性进行了深入的研究。
The main work of this thesis is simulation of the thermal characteristic and cold-test characteristic for coupled-cavity TWT slow-wave structure with ANSYS, which is a finite-element software.
本文的主要工作就是利用大型通用有限元计算软件ANSYS模拟耦合腔行波管慢波结构的热特性和冷测特性并对该软件进行了二次开发。
The results manifest that the dielectric-loading can lower the operating voltage of the ring-plane slow-wave structure. Good accordance was obtained between results by this method and that of CST-MWS.
计算结果与CST - MWS的模拟结果吻合良好,说明所提出的计算等效相对介电常数的方法和计算色散方程的方法对环板慢波结构是切实可行的。
In this paper, a relativistic high power microwave generator with coaxial slow wave structure was experimentally researched.
对一种同轴慢波结构相对论高功率微波产生器进行了初步的实验研究。
The result indicates that the slow wave structure significantly improves the microwave output power and conversion efficiency. The simulated microwave frequency agrees well with the predicted value.
研究结果表明这种慢波结构相对原结构在微波输出功率和转换效率上都有很大提高,微波工作频率与预测相符合。
The main properties of helically wrapped circular waveguide slow wave structure, including the dispersion relation and interaction impedance, are presented.
本文介绍螺旋折叠圆波导慢波结构的主要特性:色散关系和互作用阻抗。
The spiral curve structure can be used in slow-wave systems.
螺旋线结构就可以作为慢波系统;
The double taper helix slow wave structure is one of the most widely used slow wave structures in space TWT.
双渐变螺旋线慢波结构是空间行波管中使用最广的慢波结构之一。
The analysis and computation show that folded waveguide circuit is available as slow wave structure for broadband high power TWT in short centimeter and millimeter wave range.
分析和计算表明,该电路很适合用作短厘米波和毫米波大功率行波管的慢波结构。
Dielectric load and dispersion characteristics of slow wave structure with V-type rods and circular rods are discussed.
最后讨论了V形杆与圆形杆夹待时的介质负载和色散特性。
Dielectric load and dispersion characteristics of slow wave structure with V-type rods and circular rods are discussed.
最后讨论了V形杆与圆形杆夹待时的介质负载和色散特性。
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