1) Hybrid dielectric-iris-loaded
介质-金属膜片混合加载加速结构
2) hybrid dielectric-iris-loaded travelling accelerating structure
介质和金属膜片混合加载
1.
The dispersion curves of the TM01 and HEM11 modes for the X-band hybrid dielectric-iris-loaded travelling accelerating structure have been calculated.
37GHz)介质和金属膜片混合加载行波加速结构的TM01模和HEM11模的色散曲线,结果表明HEM11模的截止频率比TM01模的低,说明与盘荷波导相比,该种新加速结构单束团的BBU效应得到改善。
3) Dielectric loading ring-plane slow-wave structure
介质加载环板慢波结构
4) loaded with complex structure dielectric
复杂结构介质加载
1.
In this paper, the TE_(011) mode\'s resonant characteristics of cavities loaded with complex structure dielectric are analyzed approximately by using the mode match method.
本文首先采用模式匹配法近似地分析了复杂结构介质加载谐振腔TE_(011)模的谐振特性。
5) Coaxial disc-loaded structure
同轴膜片加载结构
6) dielectric loading
介质加载
1.
Effects of the dielectric loading on the transmission properties of frequency selective surfaces(FSS) were preliminarily explored by experiment, especially in the thickness, loading patterns of the dielectric and the sensitivities of the forementioned parameters to the varying angle of incidence.
通过实验测试,从介质厚度、加载方式以及各参数对入射角的敏感性等方面,初步探讨了介质加载对频率选择表面(Frequencyselectivesurfaces,简称FSS)传输特性的影响。
2.
The in-band transmission loss of one side dielectric loading is induced mainly by a mismatch loss or by a dielectric loss that depend on the dielectric thickness and the way of dielectric loading.
研究表明,介质有耗时,TE波大入射角下损耗最大;阵列分布或单元缝隙影响带宽的条件下,介质损耗与带宽总是呈相反的趋势;单侧介质加载的带内传输损耗主要是失配损耗还是介质损耗取决于介质厚度和加载方式。
补充资料:介质
介质
即"递质"。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条