Sie befinden sich hier: ECE > Modules > Optoelectronics
| Module title |
Optoelectronics P1a |
| Courses |
Title |
Type |
his-lsf
course identifier |
SWS |
Credits |
Performance
requirements/Examination |
| Optoelectronics Project
Work |
project |
FB16-3178 |
4 |
6 |
Report and presentation |
| Module credits |
6 |
| Language |
English |
| Held |
in summer and
winter semester, topics on demand anytime |
| Lecturer |
Hillmer and team |
| Responsibles(s) |
Hillmer |
| Required
qualifications |
Profound
knowledge in optoelectronics |
| Workload |
60
hours course attendance
120 hours self-study |
| Contents |
- Theoretical model calculation using advanced software
tools on problems at the
research front
- Example: calculation of laser spectra with the goal
to optimize and design an
advanced VCSEL with complex coupling (real and imaginary part in
refractive
index). This is done for a novel hybrid structure combining inorganic
and organic
materials
- Variation of basic parameters, like Δn,
measurements and evaluation of different
characteristics
- The simulations are defined according to general and
actual problems in
optoelectronics and are related to research topics of the working group.
|
| Literature |
Scientific
papers/books according to project topics. |
| Media |
Beamer
(presentation of results), report (electronic form and hard copy). |
| Objectives |
- Practice in theoretical model calculations. The
engineer should learn to understand
basics and fundamental interaction of effects by a variation of
geometric and
material parameters
- The student will learn how to design advanced
photonic devices
- Introduction to scientific work. The engineer learns
how to analyze and to interpret
calculated theoretical data
- To structure the analyzed data and parameter series
in such a way that the
uninvolved reader can understand and follow the argumentation
- Methodology of project organization and project
management, team work.
|
| Competences to be
acquired |
- To create new or modify existing models according to
the given problem
- To analyze data series with respect to the given
problem
- To experience synergies in knowledge during the
comparison and analysis of
theoretical and experimental data
- Introduction into appropriate scientific working.
|
