Course Light-Matter-Interaction
Responsible: Prof. Dr. Oberheide
Course
Meets requirements of following modules(MID)
Course Organization
| Version |
| created |
2016-10-03 |
| VID |
1 |
| valid from |
WS 2015/16 |
| valid to |
|
|
|
| Course identifiers |
| Long name |
Light-Matter-Interaction |
| CID |
F07_LMW |
| CEID (exam identifier) |
|
|
| Contact hours per week (SWS) |
| Lecture |
3 |
| Exercise (unsplit) |
1 |
| Exercise (split) |
|
| Lab |
|
| Project |
|
| Seminar |
|
| Tutorial(voluntary) |
|
|
|
| Total contact hours |
| Lecture |
45 |
| Exercise (unsplit) |
15 |
| Exercise (split) |
|
| Lab |
|
| Project |
|
| Seminar |
|
| Tutorial (voluntary) |
|
|
|
| Max. capacity |
| Exercise (unsplit) |
|
| Exercise (split) |
40 |
| Lab |
|
| Project |
|
| Seminar |
|
|
Total effort (hours): 150
Instruction language
Study Level
Prerequisites
Textbooks, Recommended Reading
- Carlson, G. E.: Signal and Linear System Analysis, John Wiley & Sons, Inc.
- Girod, B.: Einführung in die Systemtheorie, Teubner Verlag
- von Grünigen, D. Ch.: Digitale Signalverarbeitung, Fachbuchverlag Leipzig
- Hsu, H.P.: Signals and Systems, Schaums Outlines
- Meyer, M.: Signalverarbeitung, Verlag Vieweg
- Ohm, J.-R.; Lüke, H. D.: Signalübertragung, Springer-Verlag
- Oppenheim, A.V.; Wilsky, A.S.:Signals & Systems, Prentice Hall
- Werner, M.: Signale und Systeme, Verlag Vieweg
Instructors
Supporting Scientific Staff
Transcipt Entry
Light-Matter-Interaction
Assessment
| Type |
| wE |
written exam (for low number of exams: oral exam) |
| Total effort [hours] |
| wE |
10 |
Frequency: 2/a
Course components
Lecture/Exercise
Objectives
Lerninhalte (Kenntnisse)
- basic concepts
- characterization of interaction processes between light and matter
- dependence of material parameters
- fundamentals of light detectors and sources
- applications
- usage of birefringent optical components
- light absorption and scattering in life sciences
- material processing
Acquired Skills
- description of material's optical behaviour for given starting parameter (PFK.2, PFK.4, PFK.11)
- determine the ideal detector material for a certain spectral range (PFK.5, PFK.11)
- determine the ideal light source for a certain material processing or diagnostic application (PFK.5, PFK.11)
Additional Component Assessment
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