DocumentCode
1287650
Title
Higher order impedance and absorbing boundary conditions
Author
Senior, T.B.A. ; Volakis, John L. ; Legault, Stéphane R.
Author_Institution
Radiat. Lab., Michigan Univ., Ann Arbor, MI, USA
Volume
45
Issue
1
fYear
1997
fDate
1/1/1997 12:00:00 AM
Firstpage
107
Lastpage
114
Abstract
Traditionally, generalized impedance boundary conditions (GIBCs) have been used to model dielectrics and coated surfaces, and absorbing boundary conditions (ABCs) have been used to simulate nonreflecting surfaces. The two types have the same mathematical form and, in most instances, a higher order condition involving higher order field derivatives has a better accuracy. We demonstrate that there is a close connection between the two and this enables us to use a systematic method which is available for generating GIBCs of any desired order to derive new two- and three-dimensional ABCs. The method is applicable to curvilinear/doubly-curved surfaces and examples are given. Finally, curves are presented that quantify the accuracy of two-dimensional ABCs up to the fourth order, and show how higher order ABCs can improve the efficiency of large scale partial differential equation (PDE) solutions
Keywords
boundary-value problems; conductors (electric); dielectric properties; electric impedance; electromagnetic wave scattering; partial differential equations; EM wave scattering; absorbing boundary conditions; circular cylinder; coated surfaces; curvilinear/doubly-curved surfaces; dielectrics; generalized impedance boundary conditions; higher order field derivatives; higher order impedance boundary conditions; large scale PDE solutions; nonreflecting surface simulation; partial differential equation; perfectly electrically conductor; successive approximation method; systematic method; two-dimensional ABC; Boundary conditions; Boundary value problems; Coatings; Dielectric losses; Electromagnetic radiation; Electromagnetic scattering; Large-scale systems; Material properties; Partial differential equations; Surface impedance;
fLanguage
English
Journal_Title
Antennas and Propagation, IEEE Transactions on
Publisher
ieee
ISSN
0018-926X
Type
jour
DOI
10.1109/8.554247
Filename
554247
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