Syllabus.pdf, Study notes of Electromagnetism and Electromagnetic Fields Theory

Text: Advanced Engineering Electromagnetics by Constantine A. Balanis. References: Time-Harmonic Electromagnetic Fields by R. F. Harrington.

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School of Electrical, Computer and Energy Engineering
Ira A. Fulton Schools of Engineering
Arizona State University
EEE 641
Advanced Electromagnetic Field Theory 3 hr. rec.
Text: Advanced Engineering Electromagnetics by Constantine A. Balanis
References: Time-Harmonic Electromagnetic Fields by R. F. Harrington
EM Waves and Radiating Systems by E. C. Jordan and K. G. Balmain
Field and Wave Electromagnetics by D. K. Cheng
Course Syllabus:
Cylindrical wave functions, waveguides and resonators; spherical wave functions and
resonators; scattering from planar, cylindrical and spherical surfaces; Green’s functions.
I. Review 1
II. Chapter 8 7
A. Rectangular waveguides
B. Partially-filled waveguides
C. Dielectric waveguide
D. Artificial impedance surfaces
C. Striplines
D. Microstrips
E. Coupling
F. Spectral domain method
G. Ridged waveguides
III. Circular cross-section waveguides and cavities 3
A. Circular waveguide
B. Circular cavity
C. Radial waveguides
D. Dielectric waveguides and resonators
E. Optical fiber cable
F. Dielectric-covered conducting rod
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School of Electrical, Computer and Energy Engineering

Ira A. Fulton Schools of Engineering

Arizona State University

EEE 641

Advanced Electromagnetic Field Theory – 3 hr. rec.

Text: Advanced Engineering Electromagnetics by Constantine A. Balanis

References: Time-Harmonic Electromagnetic Fields by R. F. Harrington EM Waves and Radiating Systems by E. C. Jordan and K. G. Balmain Field and Wave Electromagnetics by D. K. Cheng

Course Syllabus: Cylindrical wave functions, waveguides and resonators; spherical wave functions and resonators; scattering from planar, cylindrical and spherical surfaces; Green’s functions.

I. Review 1

II. Chapter 8 7 A. Rectangular waveguides B. Partially-filled waveguides C. Dielectric waveguide D. Artificial impedance surfaces C. Striplines D. Microstrips E. Coupling F. Spectral domain method G. Ridged waveguides

III. Circular cross-section waveguides and cavities 3 A. Circular waveguide B. Circular cavity C. Radial waveguides D. Dielectric waveguides and resonators E. Optical fiber cable F. Dielectric-covered conducting rod

IV. Spherical transmission lines and cavities 2 A. Spherical wave functions B. Construction of solutions C. Biconical transmission line D. Spherical cavities

V. Scattering 10 A. Scattering by planar surfaces B. Cylindrical wave transformations and theorems C. Scattering by circular cylinders D. Scattering by conducting wedge E. Spherical wave orthogonalities, transformations and theorems F. Scattering by conducting sphere

VI. Green’s functions 3 A. Green’s Functions in engineering B. Strurm-Liouville problems C. Two-dimensional Green’s function D. Green’s functions of scalar Helmholtz equation

University Academic Integrity Policy (AIP) refers to each student's obligation to act with honesty and integrity and to respect the rights of others in carrying out all academic assignments. Violations of the University AIP will not be ignored. Penalties include reduced or no credit for submitted work, a failing grade in the class, a note on your official transcript that shows you were punished for cheating, suspension, expulsion and revocation of already awarded degrees. The University requires that should I implement any penalty for violations of the academic integrity policy, I must report the matter to the Dean's office. The University has a Student Academic Integrity Policy, which will be followed in EEE 641.

January 2, 2015