Electromagnetic boundary value problems are discussed.
Wave equations together with the mechanism of wave phenomena are interpreleted.
It provides the basic methodology and the interpretation in the boundary value problems of electromagnetic waves. Some canonical problems in electromagnetic wave scattering are solved. Important concept of “field equivalence theorem” is explained. The following topics are included.
The objective of this course is to provide the basic methodology and the interpretation in the boundary value problems of electromagnetic waves. Some canonical problems in electromagnetic wave scattering are solved. Important concept of “field equivalence theorem” is explained.
01. Solutions for homogeneous equations.
02. Scattering in a shorted parallel plates (Summation form)
03. Scattering in a shorted parallel plates (Integral form)
04. Equivalence between summation and integral forms
05. Scattering by a cylinder
06. Diffraction from a half plane.
07. Radiation from a source.
08. Solutions for homogeneous equations.
09. Dipole, Uniqueness, Poynting Theorem, Far field.
10. Derivation and interpretation of Maxwell’s equations.
11. Direct integration of the field equations.
12. Field equivalence theorem.
13. Boundary, edge and radiation conditions.
Available on OCW
JULIUS ADAMS STRATTON ELECTROMAGNETIC THEORY
Pag. 185 – 193(single-double layer)
Pag. 460 – 464(The Kirchhoff-Huygens Principle)
Pag. 464 – 468(Direct Integration of the Fields Equations) McGRAW-HILL BOOK
関口 利男 Toshio Sekiguchi 電磁波 Electromagnetic Waves 朝倉書店 Asakura (理工学基礎口座20)
ROBERT E. COLLIN FIELD THORY OF GUIDED WAVES McGRAW-HILL BOOK COMPANY
Roger F. Harrington TIME-HARMONIC ELECTROMAGNETIC FIELDS McGRAW-HILL
BOOK COMPANY ISBN 0-07-026745-6
Samuel Silver Microwave Antenna Theory and Design Peter Peregrinus Ltd., ISBN 0 86341 0170
Electromagnetism 1, 2
Wave engineering
Examination together with Home works