Title :
Total- and scattered-field decomposition technique for the finite-element time-domain method
Author :
Riley, Douglas J. ; Jin, Jian-Ming ; Lou, Zheng ; Petersson, L. E Rickard
Author_Institution :
Northrop Grumman Mission Syst., Albuquerque, NM
Abstract :
A total- and scattered-field decomposition (TSFD) technique for the finite-element time-domain (FETD) method is described. This formulation leads to both a volumetric excitation method and a Huygens´ surface excitation method to impress the incident field in the total-field region. Leakage suppression into the scattered-field region on the order of -250 dB has been obtained, independent of the mesh density and the propagation angle. In addition, in a free-space environment, the relative error between the calculated total field and the discrete incident field is also on the order of -250 dB for the volumetric excitation scheme. Consequently, this total- and scattered-field approach can provide accuracy that is comparable to a pure scattered-field formulation. Both free space and air-earth interfaces are considered
Keywords :
electromagnetic fields; electromagnetic wave propagation; electromagnetic wave scattering; finite element analysis; time-domain analysis; FETD; Huygens surface excitation method; finite-element time-domain method; incident field; leakage suppression; propagation angle; scattered-field decomposition technique; total-field decomposition technique; volumetric excitation method; Computational electromagnetics; Electromagnetic scattering; Equations; Finite difference methods; Finite element methods; Matrix decomposition; Nonhomogeneous media; Sun; Surface waves; Time domain analysis;
Conference_Titel :
Antennas and Propagation Society International Symposium, 2005 IEEE
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-8883-6
DOI :
10.1109/APS.2005.1551494
