Cavity structure is a special kind of electromagnetic scattering object.
腔体结构是一类特殊的电磁散射结构,该类结构通常会在一个较宽的空域内产生较强的电磁散射。
参考来源 - 腔体电磁散射特性的建模与校模In conclusion, we give some expectations of group theory connected with EM scattering problems.
本文最后还给出了群方法应用于电磁散射的展望。
参考来源 - 用于电磁散射的矩量法择基问题的群方法With the development of target stealth technique, the properties of complicated boundary target EM scattering more and more has brought to people's attention.
随着目标隐身技术的发展,近年来有关复杂边界目标电磁散射特性的研究日益引起人们的重视。
参考来源 - 目标与二维粗糙分形海面复合电磁散射近场特性研究The electromagnetic scattering characteristics of partially coated ogive have been calculated by hybrid method and many valuable results have been obtained through analysing the effects of the surface wave on ogive.
本文用高频近似法和数值法相结合的混合法计算局部涂敷介质的橄榄体的电磁散射特性,分析橄榄体上表面波效应,得到许多有价值的结果。
参考来源 - 橄榄体上表面波分析 in C·2,447,543篇论文数据,部分数据来源于NoteExpress
由于原广义镜像法只能够处理具有四面对称的电磁散射问题。
The Original Generalized Image Method can only deal with four aspect symmetric scattering body.
计算结果表明,该方法简单有效且有利于电磁散射问题的计算机快速求解。
Numerical results demonstrated that the proposed method not only decreases the workload but also benefits fast solving to electromagnetic scattering analysis.
本文分别采用数值方法和解析方法,分析周期性电抗加载多层介质结构的电磁散射特性。
In this dissertation, both numerical method and analytical method are applied to analyze the EM scattering characteristics of periodically reactance-loaded multilayer dielectric structures.
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