Scattering of Time-Harmonic Electromagnetic Waves by Anisotropic Inhomongeneous Scatters or Impenetrable Obstacles
Author(s) | Monk, Peter B. | |
Author(s) | Coyle, J. | |
Date Accessioned | 2005-02-18T18:16:04Z | |
Date Available | 2005-02-18T18:16:04Z | |
Publication Date | 2000 | |
Abstract | We investigate an overlapping solution technique to compute the scattering of time-harmonic electromagnetic waves in two dimensions. The technique can be used to compute waves scattered by penetrable anisotropic inhomogeneous scatterers or impenetrable obstacles. The major focus is on implementing the method using finite elements. We prove existence of a unique solution to the disctretized problem and derive an optimal convergence rate for the scheme, which is verified numerical by examples. | en |
Extent | 496984 bytes | |
MIME type | application/pdf | |
URL | http://udspace.udel.edu/handle/19716/365 | |
Language | en_US | |
Publisher | Department of Mathematical Sciences | en |
Part of Series | Technical Report: 2000-13 | |
Keywords | anisotropic | en |
Keywords | finite element | en |
Keywords | electromagnetic scattering | en |
dc.subject.classification | AMS: 35Q60, 65N30 | |
Title | Scattering of Time-Harmonic Electromagnetic Waves by Anisotropic Inhomongeneous Scatters or Impenetrable Obstacles | en |
Type | Technical Report | en |