| | Standard Course Syllabus | Course | Date of Approval |
| | Department of Electrical Engineering | Pathak | February 4, 1999 |
| | 818 | Advanced Electromagnetic Theory II |
| | 2. | CATALOG DESCRIPTION |
| | Vector wave functions and dyadic Green's functions; integral equations and their solution by the moment, variational, and |
| | T-matrix methods; application to antenna and scattering problems. |
| | Quarters of Offering | Credits | Level | Class Meeting |
| | Wi Qtr (odd years). | 3 | G | 3 cl. |
| | Course Prerequisites |
| | Prereq: 817. |
| | 3. | PREREQUISITES BY TOPIC |
| | General formulation of source excited electromagnetic; wave problems in homogeneous, isotropic and anisotropic media |
| | using plane wave spectral methods; Green's function methods for solving one-dimensional wave problems |
| | Courses that require this as a direct |
| | 819 |
| | 4. | TEXT(S) | Author(s) | Publisher |
| | No text |
| | References (supplemental reading) |
| | [1] L.B. Felsen and N. Marcuvitz, Radiation and Scattering of Waves, Prentice-Hall, Inc., Englewood Cliffs, N.J., 1973. |
| | [2] A. Ishimaru, Electromagnetic Wave Propagation, Radiation, and Scattering, Prentice-Hall, Inc., Englewood Cliffs, |
| | N.J. 1991. |
| | [3] J.A. Kong, Electromagnetic Wave Theory, Wiley, N.Y., 1986. |
| | 5. | COURSE OBJECTIVES |
| | 1. Students will become familiar with the systematic construction of solutions to a wide variety of useful electromagnetic |
| | (EM) antenna and scattering problems in two and three dimensions using a combination of Green's function techniques |
| | and integral equation methods. (Criterion 3(a)) |
| | 6. | TOPICS AND (# OF LECTURES) |
| | Discrete and continuous eigenfunction expansion of Green's functions in one-dimension (4) |
| | Construction and applications of two- and three- dimensional scalar Green's functions (6) |
| | Scalar integral equations in electromagnetics (4) |
| | Electromagnetic dyadic Green's functions (6) |
| | Vector integral equations in electromagnetics (6) |
| | Electromagnetic periodic structures and Floquet theory (4) |
| | 7. | CLASS MEETING PATTERN | (For example, "3cl." means 3 48-min classes per week.) |
| | 3 cl. |
| | Tuesday, June 24, 2003 04:27 PM |
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