Electromagnetic modelling of coated structures using the FDTD method

Author

Ellacott, D. ; Wood, G. ; Jepps, G.

Author_Institution

THORN EMI Electronics Ltd., Wells, UK

fYear

1992

fDate

33750

Firstpage

42583

Lastpage

42586

Abstract

The finite difference time domain (FDTD) method, when combined with flexible software for specifying target geometry, makes a powerful tool for predicting radar cross-sections (RCS) of inhomogeneous scatterers. It is particularly valuable in analysing the behaviour of absorber-coated materials The FDTD algorithm is a powerful method of modelling complex scattering problems using direct time integration of Maxwell´s equations. The method can handle perfectly conducting scatterers, regions of arbitrary dielectric and magnetic media and inhomogeneous structures. In particular the interaction of EM waves with metallic surfaces having penetrable coatings can be computed

Keywords

difference equations; electromagnetic wave scattering; electromagnetism; radar cross-sections; telecommunications computing; time-domain analysis; EM modelling; EM waves; FDTD algorithm; Maxwell´s equations; absorber-coated materials; coated structures; dielectric media; electromagnetic modelling; finite difference time domain; inhomogeneous scatterers; inhomogeneous structures; magnetic media; metallic surfaces; penetrable coatings; perfectly conducting scatterers; radar cross-sections; software; target geometry; time integration;

fLanguage

English

Publisher

iet

Conference_Titel

Low Profile Absorbers and Scatterers, IEE Colloquium on

Conference_Location

London

Type

conf

Filename

168446