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Photonik 2 (Pho2)- Lecturer
- Prof. Dr.-Ing. habil. Rainer Engelbrecht
- Details
- Vorlesung
2 cred.h, ECTS studies, ECTS credits: 5
nur Fachstudium, Sprache Deutsch
Time and place: Mon 8:30 - 11:45, HF-Technik: SR 5.14; single appointment on 5.5.2017 14:15 - 17:30, HF-Technik: SR 5.14; comments on time and place: Beginn und 1. Vorlesung: Fr. 5.5. 14:15. Danach V+Ü jeweils Mo. 8:30-11:45.
starting 5.5.2017
- Fields of study
- WPF CE-MA-TA-PO ab 1
WPF MT-MA-MEL ab 1
WPF EEI-BA-AET 5-6
WPF EEI-MA-AET ab 1
WPF ME-BA-MG5 5-6
WPF ME-MA-MG5 1-3
PF CE-BA-TA-PO 4
- Prerequisites / Organisational information
- Voraussetzung: Photonik 1
Aushang zur Vorlesung im SS2017
Begleitende Software-Dokumente und Simulationen zu Vorlesung und Übung finden Sie hier . - Contents
- 1. Einleitung und Übersicht
2. Lasermesstechnik
3. Kohärenz und Interferometrie
4. Rauschen in photonischen Systemen
5. Faserverstärker und Faserlaser
6. Dynamische Vorgänge in Laser-Oszillatoren, Kurzpulslaser
7. Einführung in die nichtlineare Optik
8. Anwendung der optische Frequenzumsetzung in Lasersystemen
9. Stimulierte Raman- und Brillouin-Streuung
10. Zusammenfassung und Ausblick
- Recommended literature
- Eichler, J., Eichler, H.J: Laser. Springer Verlag, Berlin 2002.
Reider, G.A.: Photonik. Springer Verlag, Berlin 1997.
Demtröder, W: Laserspektroskopie. Springer Verlag, Berlin 2000.
Engelbrecht, R: Nichtlineare Faseroptik. Springer Verlag, Berlin Heidelberg 2014.
- ECTS information:
- Title:
- Photonics 2
- Credits: 5
- Prerequisites
- Recommended: Photonics 1
- Contents
- Based on Photonics 1, laser systems and measurement techniques are discussed. In a first section, measurements of laser power, wavelength, state of polarisation as well as geometrical beam characteristics are covered. The concepts of spatial and temporal coherence leads to measurement devices for wavelength and angular acceleration based in interferometry. Electronic circuit design for photonic devices like laser diodes and photo diodes will be a further topic.
Temporally dynamic processes in the laser as derived from the rate equations will be discussed in a separate chapter. Spiking, relaxation oscillations, mode locking and Q-switching will be examined. Theory and applications of ultrashort pulsed lasers (femtosecond lasers) will be presented.
The field of optical frequency conversion is introduced by a chapter on non-linear optics. Methods and systems for second-harmonic and UV light generation or optical parametric oscillators (OPOs) are derived. The lecture closes with a chapter on stimulated RAMAN and BRILLOUIN scattering and technical applications of these effects.
- Additional information
- Keywords: Laser, Photonik, Messtechnik, nichtlineare Optik
Expected participants: 21
- Assigned lectures
- UE: Photonik 2 Übung
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Lecturer: Max Köppel, M. Sc.
Time and place: Mon 8:30 - 11:45, HF-Technik: SR 5.14; single appointment on 9.6.2017 14:15 - 17:30, HF-Technik: SR 5.14; comments on time and place: Erste Übung Mo. 8.5. um 8:30. Vorlesung und Übung abwechselnd im Block n.V.
- Verwendung in folgenden UnivIS-Modulen
- Startsemester SS 2017:
- Photonik 2 (Pho2)
- Department: Chair of High Frequency Technology (Prof. Dr. Schmidt)
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