Universität Wien FIND

Return to Vienna for the summer semester of 2022. We are planning to hold courses mainly on site to enable the personal exchange between you, your teachers and fellow students. We have labelled digital and mixed courses in u:find accordingly.

Due to COVID-19, there might be changes at short notice (e.g. individual classes in a digital format). Obtain information about the current status on u:find and check your e-mails regularly.

Please read the information on https://studieren.univie.ac.at/en/info.

2.1. Experimental Physics

Arndt, Mo 11:00-12:00 (14×), Tu 11:00-12:00 (2×), We 11:00-12:00 (13×), Tu 10:25-11:25 (10×)
1 Püschl, Mo 13:30-14:15 (11×)
2 Asenbaum, Mo 14:30-15:15 (11×)
3 Haslinger, Tu 13:30-14:15 (10×)
4 Forstner, Tu 14:30-15:15 (10×)
5 Püschl, We 13:30-14:15 (11×)
6 Steiner, We 14:30-15:15 (11×)
260029 PR 9 ECTS Physics laboratory I - for beginners
Markovitsch
Neumann
260108 PR 10 ECTS Laboratory Electronics - Electronics for Physicists
Steier
Zehetbauer
Rentenberger
260057 PR 10 ECTS [de en] Laboratory Nuclear and Isotope Physics
Friedmann, Fr 13:00-19:00 (13×)
260211 PR 10 ECTS Laboratory Quantum Optics
1 Walther
2 Walther
3 Walther
Horvath
Neumann
260057 PR 10 ECTS [de en] Laboratory Nuclear and Isotope Physics
Friedmann, Fr 13:00-19:00 (13×)
260002 VO 1.5 ECTS Introduction to solid state physics (electronic properties) - for students of all semesters
Philipp
Walther, Mo 13:30-15:00 (14×)
260042 VO 1.5 ECTS Superconductivity 1 (incl. high-temperature sc) - for students of all semesters
Philipp, Th 09:00-09:45 (14×)
260122 VO 2.5 ECTS [en] Complex Quantum Systems Summerschool - Lectures by international guests with exams by Markus Arndt
Arndt
260143 VO 2.5 ECTS Deterministic Chaos I - Nonlinear Dynamics in Science
Posch, Tu 15:00-17:00 (12×)
260053 SE 5 ECTS [en] Seminar coherence of photons
Zeilinger
260213 SE 5 ECTS [en] Quantum Optics Seminar - The Seminar consists of a series of talks, given by mainly international guests.
Arndt
260320 SE 5 ECTS [en] Matrix Product States - Introduction to the formalism of Matrix Product States and discussion of its use in the context of simulation of strongly correlated quantum systems.
Verstraete
260061 VO 2.5 ECTS [en] Introduction to Photonics
Fally
Steier, Tu 10:30-12:00 (12×)
1 Prager
2 Prager
260358 SE 5 ECTS [en] Quantum Optomechanics
Aspelmeyer
260053 SE 5 ECTS [en] Seminar coherence of photons
Zeilinger

Last modified: We 13.06.2018 00:36