Affiliations: [a] Department of Information and Electronic Engineering, Muroran Institute of Technology, Mizumoto-cho, Muroran, Japan Tel.: +81 143-46-5510; Fax: +81 143 46 5501; E-mail: [email protected]
Abstract: This paper proposes a scattered field formulation of the finite-difference time domain method (S-FDTD) combining with a time-domain electric field integral equation (TD-EFIE) based on surface equivalence theorem. The scattered field formulation enables us to reduce computation cost effectively for the case that scatterers are located at a far distance from field sources of electromagnetic wave since we need to calculate the scattered field component only on the region in the vicinity of the scatterers. Then it is required for the use of the scattered field formulation that the field source for the incident field component has to be expressed by any analytical solutions such as a point dipole source, plane wave, and so on. In this work, the scattered field formulation of the FDTD method is applied to cases that there are no analytical expressions of the field sources, in which the field source contains conductors such as antennas, combining with the TD-EFIE on a virtual surface which encloses the field sources. Then, it is known that calculation of the TD-EFIE itself is time consuming. This paper considers speed-up of the S-FDTD simulation based on the TD-EFIE using a spherical harmonic expansion of Green’s function of Helmholtz equation, additionally.
Keywords: Finite-difference time-domain method, microwave propagation, scattered field formulation, surface equivalence theorem, time-domain electric field integral equation, spherical harmonic expansion, Green’s function of Helmholtz equation
