| Module title | Electromagnetics
R2a |
| Courses |
Title | Type | his-lsf
course identifier | SWS |
Credits | Performance
requirements/Examination |
Electromagnetic Theory for
Microwaves
and Antennas
(lec)
|
lecture | FB16-2524 |
2 | 4 | oral
exam (30 minutes) |
Electromagnetic Theory for
Microwaves
and Antennas
(ex) | exercises | FB16-2534 |
1 | 1 |
Fields and Waves in
Optoelectronic
Devices (lec) | lecture |
FB16-2523 | 2 |
4 | oral
exam (30 minutes) |
Fields and Waves in
Optoelectronic
Devices (ex) | exercises |
FB16-2535 | 1 |
1 |
| Current Topics in
Electromagnetic Field Theory (sem) | seminar | FB16-2536 |
2 | 2 | seminar
attendance
and presentation |
| Module credits | 12 |
| Language |
English |
| Held |
in
winter
semester, annually |
| Lecturer | Witzigmann,
Marklein, Römer, Mayer |
| Responsibles(s) | Witzigmann |
| Required
qualifications | Mathematical
foundations in electromagnetic field theory |
| Workload | 120 hours course attendance
240
hours self-study |
| Contents |
- Fundamentals
of
Electromagnetic
Field
Theory,
Electromagnetic waves,
Transmission
Line Theory, Theory of
Electromagnetic Waves, Time-dependent
boundary
value problems, metallic waveguides and resonators, periodic structures
and coupled modes,
dispersive and anisotropic
media, electromagnetic source
fields,
antennas, Gaussian beam,
integral equations, scattering
theory, inverse
scattering problems. - Semiconductor
Basics, Electromagnetics, Fibre
Propagation, Interaction of Light
and
Semiconductors, Characteristics of State of the Art Optoelectronic
Devices - Topics in electromagnetic field
theory.
|
| Literature |
- Inhomogeneous Media, Wiley-IEEE Press,
New York, 1999.
- K.J. Langenberg, Theorie
elektromagnetischer Wellen. Buchmanuskript, FG Theorie
der
Elektrotechnik und Photonik, FB
Elektrotechnik/Informatik, Universität Kassel,
Kassel,
2003. - J.G. Van Bladel, Electro Magnetic
Fields, Wiley-IEEE Press, New York, 2007.
- K.
Zhang, Li, Deji, Electromagnetic Theory for Microwaves and
Optoelectronics, 2nd
Ed., Springer, Berlin, 2008. - Shun
Lien Chuang, Physics of Optoelectronic Devices, Wiley, 1995.
- Voges
und Petermann, Optische Kommunikationstechnik, Springer, 2002.
- Coldren
and Corzine, Diode Lasers and Photonic Integrated Circuits, Wiley, 1995.
- Additional
papers to be handed out according to seminar topics.
|
| Media |
Beamer
(presentation), black board (derivations, explanations), paper
(exercises),
PC based software development (exercises). |
| Objectives |
- Understanding applications
of electromagnetic field theory
in microwave and
antenna
technology. - Understanding
the fundamentals of
optoelectronic
devices and the principles of
modelling
and simulation of these devices. - Presentation
of a scientific topic in a seminar.
|
| Competences
to be
acquired | - Research and development
in the area of electromagnetic field theory for microwaves,
antennas
and optoelectronic devices. |
