Ultra Cold Quantum Gases 2

Course 0000000294 in SS 2014

General Data

Course Type Lecture w/ Exercise
Semester Weekly Hours 3 SWS
Organisational Unit Physics Department
Lecturers Stephan Dürr
Simon Baur
Dates Friday, 08:00–10:00

Assignment to Modules

Further Information

Courses are together with exams the building blocks for modules. Please keep in mind that information on the contents, learning outcomes and, especially examination conditions are given on the module level only – see section "Assignment to Modules" above.

additional remarks This class is a sequel to „Ultrakalte Quantengase 1“ of the previous semester. Preliminary table of contents for the second semester: • Coherence properties • Interference of condensates • Cold collisions in dilute gases • Gross-Pitaevskii equation • Bogoliubov excitations • Superfluidity and vortices • Optical lattices • Feshbach resonances and molecule association • Fermions and BEC-BCS crossover
Links TUMonline entry

Equivalent Courses (e. g. in other semesters)

SS 2016 Ultra Cold Quantum Gases 2 Dürr, S. Friday, 10:00–12:00
and dates in groups
SS 2012 Ultra Cold Quantum Gases 2 Dürr, S.
Assistants: Baur, S.
singular or moved dates
and dates in groups
SS 2010 Ultra cold quantum gases II singular or moved dates
and dates in groups

Condensed Matter

When atoms interact things can get interesting. Fundamental research on the underlying properties of materials and nanostructures and exploration of the potential they provide for applications.

Nuclei, Particles, Astrophysics

A journey of discovery to understanding our world at the subatomic scale, from the nuclei inside atoms down to the most elementary building blocks of matter. Are you ready for the adventure?


Biological systems, from proteins to living cells and organisms, obey physical principles. Our research groups in biophysics shape one of Germany's largest scientific clusters in this area.