## Projects- Quantum computation and entanglement with ion strings
- Strongly interacting Fermi gases
- Dipolar quantum gases
- Quantum entanglement in higher-dimensional Hilbert spaces: foundations and applications
- Probing and controlling mesoscopic low-dimensional quantum systems
- Quantum agents, simulation and measurement-based computation
- Atom cavity QED
- Simulation of strongly correlated quantum systems
- Many-body quantum systems of cold atoms, molecules and ions
- A quantum switch for light
- Large-scale numerical simulations of quantum matter
- Entanglement in a CQED system
| ## Strongly interacting Fermi gases## Rudolf GrimmA strongly interacting Fermi gas can be created by mixing two different fermionic components and introducing resonant interactions through a Feshbach resonance. The strongly interacting regime is realized when the s-wave scattering length exceeds the interparticle spacing. In this case, the behavior of the system is governed by many-body physics.The starting point of our planned experiments is a mixture of fermionic | |