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引用次数: 1
摘要
提出了一种基于时域E-PMCHW (Poggio, Miller, Chang, Harrington and Wu)积分方程的自适应方法,用于预测某些完美导电材料与介电材料构成的复合结构的瞬态散射和辐射响应。分别用电场积分方程(EFIE)和PMCHW方程来描述电场和介电部分,并推导出一组时域E-PMCHW方程。常用的RWG和线基函数分别用于扩展表面电流和导线电流。然后,采用自适应方式采用备选总体停止准则的顺序行进(MOO)方法求解导出的方程。给出了一些典型的数值结果,证明了该方法能够准确地捕捉一些典型复合材料在意图电磁脉冲(IEMP)作用下的瞬态散射和辐射响应。
Time domain E-PMCHW integral equation solved by adaptive marching-on-in-order procedure for predicting transient responses of some composite structures
One adaptive method, based on time-domain E-PMCHW (Poggio, Miller, Chang, Harrington and Wu) integral equation, is presented for predicting transient scattering and radiation responses of some composite structures made of perfectly conducting (PEC) and dielectric materials. Both PEC and dielectric parts are described by the electric field integral equations (EFIE) and the PMCHW ones, respectively, with a set of time domain E-PMCHW equations derived. The common RWG and line basis functions are used to expand surface and wire currents, respectively. The derived equations are then solved by marching-on-in-order (MOO) procedure, where an alternative overall stopping criterion is used in an adaptive way. Some typical numerical results are given to demonstrate its accuracy in capturing transient scattering and radiation responses of some typical composites in the presence of an intentional electromagnetic pulse (IEMP).
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