Our research program lies at the crossing between quantum information science, quantum optics and nanoscale science. In particular, we are interested in the quantum control of light matter interaction between single photons and atomic ensembles implemented with rare-earth doped solids and cold atomic gases. The goal of the research is to develop the physical resources to implement quantum information networks and quantum repeaters which are required to increase the maximal distance of quantum communication.
Understanding interacting quantum many body system and engineering and exploiting such quantum systems for quantum information purposes or quantum simulations pose some of the most outstanding challenges in quantum physics.
Head: Michael Köhl
Research: ultracold atom-ion collisions, single ions in a Bose-Einstein condensate, quantum information processing
Ion species: Yb+
We study experimentally the quantum interaction of trapped, laser-cooled ions and atoms with laser light, aiming at its application for processing and transmitting quantum information. Particular emphasis is on the interaction between single trapped ions over long distances through optical fields, and on techniques for storing single neutral atoms.
Experimental Physics research group. With the focus on physics with ultracold atoms.
Pages
