In Chapter 1, we analyze the electromagnetic scattering of general cavity based on the contrast of waveguide mode method, geometrical optics method, Gaussian beam method and Complex ray method (CRM).
本文的第一章对一般腔体的电磁散射机理和电磁散射分析方法进行了详细地讨论,具体分析比较了导波模式法、几何光学射线法、高斯波束法和复射线方法。
参考来源 - 腔体电磁散射特性的建模与校模Thirdly, the fog attenuation for Gauss beam propagation is discussed, and the computational results are compared with those with plane wave incidence.
对高斯波束在雾中的衰减进行了讨论,并将数值计算结果与平面波结果进行了对比。
参考来源 - 激光在雾媒质中的传播衰减特性研究Study on interaction scattering properties of multi-object illuminated by shaped Gaussian beam is of significant academic value and extensive applications in many fields.
本文重点研究了多粒子对高斯波束的相干散射。
参考来源 - 多粒子对高斯波束的相干散射·2,447,543篇论文数据,部分数据来源于NoteExpress
根据复射线理论,利用复源点高斯波束场来模拟天线的远场方向图。
Based on complex ray theory, the Gaussian beams emitted by complex source points are employed to simulate the far-field pattern of antennas.
本文根据复射线法对通过介质天线罩的高斯波束场进行近轴近似分析。
Based on complex ray method, a paraxial approximation analysis of Gaussian beam transmission through a dielectric radome is presented.
讨论了不同传播高度、不同湍流内、外尺度对高斯波束斜程传输闪烁指数的影响。
The influence of different altitudes, different sizes of the inner and outer scale of the turbulence on the scintillation index with Gaussian beam propagation in the slant path is discussed in detail.
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