Course MV-MTS-86606-K-4
Optical Measuring Technique (2V+1U, 3.0 LP)
Course Type
| SWS | Type | Course Form | CP (Effort) | Presence-Time / Self-Study | |
|---|---|---|---|---|---|
| - | K | Lecture with exercise classes (V/U) | 3.0 CP | 48 h | |
| 2 | V | Lecture | 28 h | ||
| 1 | U | Lecture hall exercise class | 14 h | ||
| (2V+1U) | 3.0 CP | 42 h | 48 h | ||
Basedata
Contents
- Introduction to geometrical optics
- Fermat’s principle
- Optical illustrations
- Microscopes
- Köhler illumination
- Aberrations
- Jones formalism
- Maxwell equations
- Deflection on a lattice
- Wave-optical resolution
- Fraunhofer diffraction
- Modulation transfer function
- Selected optical measuring instruments
Competencies / intended learning achievements
1. Lecture
Students are able to
- Explain the fundamentals of geometric optics
- Explain the fundamentals of wave optics
- Understand optical measuring instruments
- Use optical components for their own purposes
2. Practice
Students are able to
- Calculate ray paths with the aid of geometric optics
- Determine interference phenomenonas with the aid of wave optics
Literature
- M. Born, Optik, Springer Verlag 1985
- T. E. Furtak und M. V. Klein, Optics, Wiley Verlag 1986
Materials
Powerpoint, Zeemax, Matlab
Requirements for attendance (informal)
Basic knowledge of physics
Requirements for attendance (formal)
None
References to Course [MV-MTS-86606-K-4]
| Module | Name | Context | |
|---|---|---|---|
| [MV-MTS-260-M-4] | Optical Measuring Technique | P: Obligatory | 2V+1U, 3.0 LP |
| [PHY-SP-7-M-7] | Schwerpunktmodul Messtechnik | WP: Obligation to choose | 2V+1U, 3.0 LP |
Notes on the module handbook of the department Mechanical and Process Engineering
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