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260026 VU Fundamentals of Photonics 2 (2022S)
Prüfungsimmanente Lehrveranstaltung
Labels
An/Abmeldung
Hinweis: Ihr Anmeldezeitpunkt innerhalb der Frist hat keine Auswirkungen auf die Platzvergabe (kein "first come, first served").
- Anmeldung von Di 01.02.2022 08:00 bis Do 24.02.2022 12:00
- Abmeldung bis Fr 25.03.2022 23:59
Details
max. 15 Teilnehmer*innen
Sprache: Englisch
Lehrende
Termine (iCal) - nächster Termin ist mit N markiert
- Mittwoch 09.03. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 16.03. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 23.03. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 30.03. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 06.04. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 27.04. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 04.05. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 11.05. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 18.05. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 25.05. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 01.06. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 08.06. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 15.06. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
- Mittwoch 22.06. 09:00 - 11:30 Kleiner Seminarraum, Zi.3510, Boltzmanngasse 5, 5. Stk., 1090 Wien
Information
Ziele, Inhalte und Methode der Lehrveranstaltung
Art der Leistungskontrolle und erlaubte Hilfsmittel
In-class examples (25%), short student talks (25%) and a final oral exam (50%). During the final oral exam, no materials are permitted. Each assessment category (examples, talks, exam) must be passed (min. 50%) to pass the course.
Mindestanforderungen und Beurteilungsmaßstab
Throughout this course a total of 80 points will be obtainable. The minimum requirement for a passing grade is 40 points or more. Grades will be given as indicated below:
≥ 40 points: 4
≥ 50 points: 3
≥ 60 points: 2
≥ 70 points: 1
The final oral exam is part of the continuous assessment and cannot be repeated.
≥ 40 points: 4
≥ 50 points: 3
≥ 60 points: 2
≥ 70 points: 1
The final oral exam is part of the continuous assessment and cannot be repeated.
Prüfungsstoff
See “Contents” section
Literatur
This lecture is based on
• Saleh, B. E. A.; Teich, M. C.(1991/2007/2019): Fundamentals of Photonics. 1st/2nd/3rd ed. Wiley. (available as a print book via usearch)
• Siegmann, Anthony E.(1986): Lasers. University Science Books.
• Boyd, Robert W. (2008): Nonlinear Optics. 3rd ed. Elsevier. (available as an e-book via usearch)
• Reider,G.A. (1997): Photonik - Eine Einführung in die Grundlagen. Springer-Verlag. (available as an e-book via usearch in German only or as a print book in English)
• Syms, R.R.A. (1990): Practical Volume Holography. Oxford University Press.
• Yeh, P (1993): Introduction to Photorefractive Nonlinear Optics. Wiley.
• Saleh, B. E. A.; Teich, M. C.(1991/2007/2019): Fundamentals of Photonics. 1st/2nd/3rd ed. Wiley. (available as a print book via usearch)
• Siegmann, Anthony E.(1986): Lasers. University Science Books.
• Boyd, Robert W. (2008): Nonlinear Optics. 3rd ed. Elsevier. (available as an e-book via usearch)
• Reider,G.A. (1997): Photonik - Eine Einführung in die Grundlagen. Springer-Verlag. (available as an e-book via usearch in German only or as a print book in English)
• Syms, R.R.A. (1990): Practical Volume Holography. Oxford University Press.
• Yeh, P (1993): Introduction to Photorefractive Nonlinear Optics. Wiley.
Zuordnung im Vorlesungsverzeichnis
M-VAF A 2, M-VAF B
Letzte Änderung: Do 03.03.2022 15:29
At the end of this course, students will have the necessary background to understand the basics of photonic related research fields and subjects. Students will obtain the competence to independently derive basic quantities by application of appropriate mathematical models both on paper and in simple computer simulations.Contents
Topics include: interferometers, interference coatings, resonators, ultrafast lasers, nonlinear optics, spectral and noise properties of light, waveguides, holography, nonlinear electrooptic materials, photorefractive effect, holographic gratings, optical metamaterials, photonic bandgap materials and wave-coupling.Methods
Methods of the course include interactive lectures with regular student participation, exercise classes employing various learning methods (group work, individual homework assignments, mathematical examples, basic programming examples).