Truncation of computational domain for finite-difference methods in time-domain electromagnetics: efficient solution of the problem

Author

Perov, A.O. ; Sirenko, Y.K. ; Akdogan, H. ; Yaldiz, E.

Author_Institution

Inst. of Radiophys. & Electron., Kharkov, Ukraine

Volume

1

fYear

2001

fDate

2001

Firstpage

226

Abstract

The universality of the finite-difference method is generally known and the variety of possible techniques for discretization of original initial-boundary value problems ensures the receptivity of practically any set of parameters. Fundamental questions of difference scheme theory (stability, convergence, etc.) were completely considered within the scope of classical mathematical disciplines. A reasonable use of these advantages while simulating the processes of radiation, propagation, and scattering of nonsinusoidal electromagnetic waves in open regions is possible only under the conditions of efficient truncation of computational domain

Keywords

boundary-value problems; electromagnetic wave propagation; electromagnetic wave scattering; finite difference methods; time-domain analysis; computational domain truncation; convergence; difference scheme theory; electromagnetic wave propagation; electromagnetic wave radiation; electromagnetic wave scattering; finite-difference method; initial-boundary value problems; open regions; stability; Computational modeling; Electromagnetic modeling; Electromagnetic scattering; Electromagnetic waveguides; Finite difference methods; Gratings; Radar antennas; Signal analysis; Time domain analysis; Waveguide theory;

fLanguage

English

Publisher

ieee

Conference_Titel

Physics and Engineering of Millimeter and Sub-Millimeter Waves, 2001. The Fourth International Kharkov Symposium on

Conference_Location

Kharkov

Print_ISBN

0-7803-6473-2

Type

conf

DOI

10.1109/MSMW.2001.946801

Filename

946801