402-0484-00L  Experimental and Theoretical Aspects of Quantum Gases

SemesterSpring Semester 2018
LecturersT. Esslinger
Periodicitytwo-yearly recurring course
CourseDoes not take place this semester.
Language of instructionEnglish

AbstractQuantum Gases are the most precisely controlled many-body systems in physics. This provides a unique interface between theory and experiment, which allows addressing fundamental concepts and long-standing questions. This course lays the foundation for the understanding of current research in this vibrant field.
ObjectiveThe lecture conveys a basic understanding for the current research on quantum gases. Emphasis will be put on the connection between theory and experimental observation. It will enable students to read and understand publications in this field.
ContentCooling and trapping of neutral atoms

Bose and Fermi gases

Ultracold collisions

The Bose-condensed state

Elementary excitations



Interference and Correlations

Optical lattices
Lecture notesnotes and material accompanying the lecture will be provided
LiteratureC. J. Pethick and H. Smith, Bose-Einstein condensation in dilute Gases,
Proceedings of the Enrico Fermi International School of Physics, Vol. CXL,
ed. M. Inguscio, S. Stringari, and C.E. Wieman (IOS Press, Amsterdam,