摘要
由于各向异性介质电磁参数为张量形式,使得各向异性介质涂覆导体目标的电磁散射建模和精确计算相当复杂和困难。引入高阶张量阻抗边界条件,可以大大简化建模过程,提高计算效率。论文针对各向异性介质涂覆曲面导体目标,采用基于平面近似的高阶张量阻抗边界条件,将一维二阶张量阻抗边界条件应用于柱面涂覆目标,二维二阶张量阻抗边界条件应用于三维曲面涂覆目标上,建立二者的高阶张量阻抗边界条件解。设计算例仿真,并与精确解/矩量法解比较。通过仿真,研究了各向异性介质涂覆目标电尺寸、涂覆厚度以及目标形状对高阶张量阻抗边界条件解的精度的影响。
It is difficult and complicated to analyze the electromagnetic scattering of curved conducting targets coated with anisotropic material because of the tensor form of material coefficients.If Higher Order Tensor Impedance Boundary Conditions(HOTIBCs) are applied,the problem will be considerably simplified and the efficiency of the problem solution will be improved greatly.In our previous paper,we studied the scattering of planar conducting target coated with anisotropic material.Now we report our further res...
出处
《西北工业大学学报》
EI
CAS
CSCD
北大核心
2009年第5期602-605,共4页
Journal of Northwestern Polytechnical University
关键词
电磁散射
阻抗边界条件
各向异性介质
曲面目标
scattering
boundary conditions
anisotropic material
curved conducting target
HOTIBCs(higher order tensor impedance boundary conditions)
