衍射物理理论中的双重反射

T. Griesser, C. Balanis
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引用次数: 0

摘要

积分通常不能以封闭形式进行,因此可能需要进行数值积分。对于一般对象,分析变得更加难以表述。寻找双反射场的公式首先确定由于入射切向磁场而在第一个表面上产生的物理光学电流。由该电流产生的矢量势可以用来求出在所有空间中产生的场。在另一个导电表面,反射场用于确定由于第一次反射而产生的物理光学电流密度。由于这第二次反射的矢量势可以通过在第二个导电表面上的表面积分得到。反射场,这有助于总后向散射截面,然后可以找到使用远场近似。然而,当增加高阶反射时,表面
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Double reflections in the physical theory of diffraction
integrations generally cannot be performed in closed form, and numerical integrations may be necessary. The analysis becomes nuch more difficult to formulate for general objects. The formulation for finding the double reflected field begins by first determining the physical optics current on the first surface due to the incident tangential magnetic field. The vector potential due to this current can be used to find the fields induced in all space. At another conducting surface, the reflected field is used to determine the physical optics current density due to the first reflection. The vector potential due to this second reflection can be found by a surface integration over the second conducting surface. The reflected fields, which contribute to the total backscatter cross section, can then be found using the far-field approximation. When adding higher order reflections, however, the surface
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