- How optical waveguides work, based on geometrical optics and Maxwell's equations
- Various types of waveguides: Slab, rectangular, slot, fibre, photonic crystals
- The bandwidth of optical fibres = why the internet is possible
- Sensing: Evanescent field and waveguide configurations for sensing
- Trapping: How it works, limits, and advantages
- Lab: Making slab waveguides, coupling light into them, characterization
- Simulation/demonstration: Comsol Multiphysics for computing the modes of a waveguide
This course will include simulations and lab demonstrations
Rhythmus | Tag | Uhrzeit | Format / Ort | Zeitraum |
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Studiengang/-angebot | Gültigkeit | Variante | Untergliederung | Status | Sem. | LP | |
---|---|---|---|---|---|---|---|
Biophysik / Master | (Einschreibung bis SoSe 2012) | Modul 64.1 | Wahlpflicht | 6 | benotet | ||
Nanowissenschaften / Master | (Einschreibung bis SoSe 2012) | Modul 64.1 | Wahlpflicht | 6 | benotet | ||
Physik / Master | (Einschreibung bis SoSe 2012) | Modul 54.14 | Wahlpflicht | 6 | benotet |