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 Computational Electromagnetics

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 Konada Umashankar

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 Artech House

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 RF/Microwave °³·Ð

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 This comprehensive tutorial represents the fundamental principles and rigorous validations of two major contemporary branches in high-frequency computational electromagnetics: the frequency-domain integro-differential equation approach, with solution via the method of moments (MOM): and the time-domain differential equation approach, with solution via the finite-difference time-domain (FD-TD) method. The text also introduces the on-surface radiation condition (OSRC) method, a promising new research topic in high-frequency diffraction which may augment the widely-used geometric theory of diffraction.
Contents: Introduction. Maxwells Equations. Two-Dimensional Perfectly Conducting Object TM Polarization. Two Dimensional Perfectly Conducting Object TE Polarization. Two Dimensional Homogeneous Dielectric Object TM and TE Polarizations. Two Dimensional Conducting and Dielectric Layered Object TM and TE Polarizations. Two Dimensional Aperture in a Conducting Screen TME and TE Polarizations. Two Dimensional Anisotropic Dielectric Object TM and TE Polarizations. Appendixes.

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