phy600 - Photonics (Vollständige Modulbeschreibung)
Modulbezeichnung | Photonics |
Modulkürzel | phy600 |
Kreditpunkte | 6.0 KP |
Workload | 180 h
( Attendance: 56 hrs, Self study: 124 hrs )
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Einrichtungsverzeichnis | Institut für Physik |
Verwendbarkeit des Moduls |
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Zuständige Personen |
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Teilnahmevoraussetzungen | Basic knowledge on optics, electrodynamics and atomic physics |
Kompetenzziele | Starting from basics, the module yields advanced knowledge of the physics of lasers, laser beams, different laser types, modulators and of interaction of optical radiation with matter. The second part of the course is related to imaging sensors and sensor systems which is of major importance everywhere in science and engineering. This course provides substantial background of the relevant physics and engineering methods. In the extended laboratory part, using modern imaging systems such as scientific and professional cameras, students get experience. |
Modulinhalte | Fundamentals of lasers (optical gain, optical resonator, laser beams), laser types, laser safety; modern image sensors (CCD,CMOS, scientific sensors such as backside illuminated ones, XUV-detectors, MCP, etc.) are treated in detail, dynamic range and noise, optical imaging systems, basics of image processing. The excursion to the fair "LASER World of PHOTONICS" in Munich is part of this course. |
Literaturempfehlungen | C. Breck Hitz, J. J. Ewing, J. Hecht, Introduction to Laser Technology, 2012, Wiley Press; G. Reider, Photonics, 2016, Springer Verlag; B. Struve, Einführung in die Lasertechnik, 2009, VDE Verlag; U. Teubner, H.J. Bruckner: Optical Imaging and Photography (DeGruyter, Berlin); Further literature: Nakamura: Image Sensors and Signal Processing for Digital Still Camera (CRC Taylor & Francis) Original literature according indication during course |
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Unterrichtsprachen | Deutsch, Englisch |
Dauer in Semestern | 1 Semester |
Angebotsrhythmus Modul | jährlich |
Aufnahmekapazität Modul | unbegrenzt |
Modulart | Wahlpflicht / Elective |
Modullevel | MM (Mastermodul / Master module) |
Lehr-/Lernform | Lecture: 4 hrs/week , practical applications included in lecture |
Vorkenntnisse | Basic knowledge on optics, electrodynamics and atomic physics |
Prüfung | Prüfungszeiten | Prüfungsform |
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Gesamtmodul | 2 hr written examination or 30 min oral examination or experimental work or homework or presentation |
Lehrveranstaltungsform | Vorlesung |
SWS | 4 |
Angebotsrhythmus | SoSe oder WiSe |
Workload Präsenzzeit | 56 h |