Lehrveranstaltungsprüfung
260092 VO Introduction to Photonics (2018S)
Labels
WANN?
Freitag
21.09.2018
21.9. 13:00 Zimmer 3127.
Prüfer*innen
Information
Prüfungsstoff
Linear optics:
Ray optics, Electromagnetic waves, Maxwell's equations and solutions in linear media, spherical wave, Gaussian wave, wave packets
Absorption and dispersion (complex refractive index, Kramers-Kronig), Intensity, Poynting vector, Energy flow
Boundary conditions, phase matching
Waveguides
Crystal optics, polarization states (anisotropic media), birefringence
Interference and coherence, interferometry
Nonlinear optics
Nonlinear dielectric susceptibilities: Electro-optic effect (Pockels, Kerr)
Photorefractive effect I (electro-optic materials), Photorefractive effect II (2-states systems, polymers and composites)
Sum-frequency generation: second harmonic generation (coupled wave theory, DEQs and solution, phase matching, realization)
Holography in nonlinear materials, dynamical holography etc.; Photonic bandgap materials, metamaterials, photonic crystals
Ray optics, Electromagnetic waves, Maxwell's equations and solutions in linear media, spherical wave, Gaussian wave, wave packets
Absorption and dispersion (complex refractive index, Kramers-Kronig), Intensity, Poynting vector, Energy flow
Boundary conditions, phase matching
Waveguides
Crystal optics, polarization states (anisotropic media), birefringence
Interference and coherence, interferometry
Nonlinear optics
Nonlinear dielectric susceptibilities: Electro-optic effect (Pockels, Kerr)
Photorefractive effect I (electro-optic materials), Photorefractive effect II (2-states systems, polymers and composites)
Sum-frequency generation: second harmonic generation (coupled wave theory, DEQs and solution, phase matching, realization)
Holography in nonlinear materials, dynamical holography etc.; Photonic bandgap materials, metamaterials, photonic crystals
Art der Leistungskontrolle und erlaubte Hilfsmittel
Oral exam. Slides provided by mFally
Mindestanforderungen und Beurteilungsmaßstab
Knowledge of wave propagation in optical linear and nonlinear media, ability to apply this knowledge, explain the fundamental concepts and equations.
- Excellent knowledge, can explain and apply derived equations: 1 (SEHR GUT)
- Good knowledge, can explain equations: 2 (GUT)
- Good knowledge, can understand equations: 3 (BEFRIEDIGEND)
- Basic knowledge of concepts, can understand equations: 4 (GENUEGEND)
- Else: 5 (NICHT GENUEGEND)
Letzte Änderung: Mo 07.09.2020 15:41