Validation of Higher-Order Approximations and Boundary Conditions for Lossy Conducting Bodies
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Date
2014
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
IEEE-Inst Electrical Electronics Engineers Inc
Open Access Color
BRONZE
Green Open Access
Yes
OpenAIRE Downloads
70
OpenAIRE Views
165
Publicly Funded
No
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Average
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Average
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Average
Abstract
The problem of high-frequency diffraction by a smooth lossy body with high conductivity is considered. In addition to the geometrical optics approximation, additional asymptotic terms are derived to take into account the curvature of the boundary and material properties. Since these higher-order terms are derived by taking into account exact boundary conditions, it is easy to learn about the limitations of impedance conditions and to determine more accurate approximate conditions. The obtained higher-order boundary conditions and their limitations are numerically validated by solving Muller's second-kind integral equations.
Description
Altintas, Ayhan/0000-0002-3501-4010
ORCID
Keywords
Asymptotic Diffraction Theory, Boundary Value Problems, Conducting Materials, Higher-Order Boundary Conditions, Impedance Boundary Conditions (IBCS), boundary value problems, Impedance Boundary Conditions (ibcs)., Conducting Materials, Higher-order Boundary Conditions, Impedance Boundary Conditions (ibcs)., Asymptotic diffraction theory, Higher-order boundary conditions, conducting materials, High frequency HF, Boundary value problems, Conducting materials, Higher-order, Asymptotic Diffraction Theory, Higher-order Boundary Conditions, 518, Impedance boundary conditions, Integral equations, Higher-order approximation, Boundary conditions, Impedance conditions, Geometrical optics, Boundary Value Problems, higher-order boundary conditions, impedance boundary conditions (IBCs), Impedance boundary conditions (IBCs), Diffraction, Geometrical optics approximations
Fields of Science
02 engineering and technology, 01 natural sciences, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering
Citation
WoS Q
Q1
Scopus Q
Q1
OpenCitations Citation Count
4
Source
IEEE Transactions on Antennas and Propagation
Volume
62
Issue
9
Start Page
4656
End Page
4663
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Citations
CrossRef : 4
Scopus : 5
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Mendeley Readers : 6
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