Multi-point correlations in quantum many-body systems

Experiments on ultracold atoms have reached an outstanding level of control over quantum many-body systems. Using deterministic bottom-up approaches and microscopic control techniques, it is now possible to characterize quantum systems on a local scale. The currently achievable preparation and detection fidelities are sufficiently high to access advanced observables composed of multi-point correlation functions. Such observables detect correlations among multiple particles and can reveal the presence of genuine many-body effects
in the system.
In this workshop, we want to understand and extend the possibilities of multi-point correlation functions in quantum many-body systems. We aim at finding systematic ways to construct observables that are tailored to signal the desired effect in different experimental platforms.
The workshop brings together experimentalists from leading research groups on one-dimensional systems, (M. Oberthaler, University of Heidelberg, J. Schmiedmayer, University of Vienna), as well as few-body systems with fermions (S. Jochim, University of Heidelberg) and
bosons (M. Greiner, Harvard University). We will be supported by outstanding theoretical physicists that are specialized on microscopic observables in quantum many-body physics.


Veranstalter:
Universität Heidelberg
Physikalisches Institut
Prof. Dr. Selim Jochim
Im Neuenheimer Feld 226
69120 Heidelberg
E-Mail: jochim@uni-heidelberg.de


Ansprechpartner:
Universität Heidelberg
Physikalisches Institut
Dr. Philipp Preiß
Im Neuenheimer Feld 226
69120 Heidelberg
E-Mail: preiss@uni-heidelberg.de