Elektromagnetic Field and Waves
| Code | Completion | Credits | Range |
|---|---|---|---|
| E17P2 | Z,ZK | 7 | 3+3s |
- Lecturer:
- Tutor:
- Supervisor:
- Department of Electromagnetic Field
- Synopsis:
-
Uniform plane wave, propagation, polarization of waves, incidence of plane waves at plane boundaries, nonuniform waves, geometrical optics, waveguides and cavity resonators, TE and TM waves, dielectric waveguides, field scattering, elemental electric and magnetic dipole, diffraction of electromagnetic waves, waves in anisotropic materials.
- Requirements:
- Syllabus of lectures:
-
1. Propagation of plane waves in the unbounded media
2. Polarization of waves, cylindrical and spherical waves
3. Reflection and refraction on plane interface
4. Total internal reflection, nonuniform waves. Waves in the layered dielectric
5. Waves of very high frequencies. Geometrical optics
6. Guiding of electromagnetic waves, TEM waves
7. Smith chart
8. Propagation of waves in metallic waveguides, TE and TM waves
9. Dielectric waveguides
10. Resonators
11. Brief overview of radiooptics
12. Radiation of electromagnetic waves, radiation of the Hertzian dipole.
13. Diffraction of the electromagnetic waves
14. Propagation in anisotropic materials, ferrite, plasma
- Syllabus of tutorials:
-
1. Recapitulation of the knowledge's - Field theory and vector analysis
2. Plane wave, constant of propagation, Poyntings vector, impedance
3. Plane wave, constant of propagation, Poyntings vector, continuing
4. The independent solution of the example - plane wave,
5. Reflection of waves, total reflection, surface waves, polarization
6. The independent work with the special software. Plane wave, reflection
7. The independent work with the special software. Multilayered media
8. Guided Waves
9. Waves in the metallic waveguides
10. Waves in the metallic waveguides - continuing
11. Waves in the dielectric waveguides
12. Laboratory. Measurements on waveguides
13. Radiation of waves, Hertzian dipole.
14. Propagation in the gyrotropic media, Faraday rotation, birefringence
- Study Objective:
- Study materials:
-
[1] Collin, R.E.: Field Theory of Guided Waves. 2nd Edit., IEEE Press, New York 1991
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans: