MOT Solution of the PMCHWT Equation for Analyzing Transient Scattering from Conductive Dielectrics

Author

Uysal, Ismail E. ; Ulku, H. Arda ; Bagci, Hakan

Author_Institution

Div. of Comput., Electr., & Math. Sci. & Eng. (CEMSE), King Abdullah Univ. of Sci. & Technol. (KAUST), Thuwal, Saudi Arabia

Volume

14

fYear

2015

fDate

2015

Firstpage

507

Lastpage

510

Abstract

Transient electromagnetic interactions on conductive dielectric scatterers are analyzed by solving the Poggio-Miller-Chan-Harrington-Wu-Tsai (PMCHWT) surface integral equation with a marching on-in-time (MOT) scheme. The proposed scheme, unlike the previously developed ones, permits the analysis on scatterers with multiple volumes of different conductivity. This is achieved by maintaining an extra temporal convolution that only depends on permittivity and conductivity of these volumes. Its discretization and computation come at almost no additional cost and do not change the computational complexity of the resulting MOT solver. Accuracy and applicability of the MOT-PMCHWT solver are demonstrated by numerical examples.

Keywords

computational complexity; dielectric materials; electromagnetic wave scattering; integral equations; MOT-PMCHWT solver; PMCHWT equation; Poggio-Miller-Chan-Harrington-Wu-Tsai surface integral equation; computational complexity; conductive dielectric scatterers; marching on-in-time scheme; transient electromagnetic interactions; transient scattering analysis; Antennas; Conductivity; Convolution; Dielectric losses; Time-domain analysis; Transient analysis; Conductive media; PMCHWT formulation; dissipative media; integral equations; lossy media; marching-on-in-time method; time-domain analysis; transient analysis;

fLanguage

English

Journal_Title

Antennas and Wireless Propagation Letters, IEEE

Publisher

ieee

ISSN

1536-1225

Type

jour

DOI

10.1109/LAWP.2014.2369829

Filename

6953222