Engineered Quantum Systems
Prof. Dr. Monika Aidelsburger
Quantum many-body systems exhibit fascinating properties ranging from exotic quasiparticle excitations to dissipationless transport. Understanding their properties and making use of them for future applications is, however, often hindered by the exponential number of ressources required for exact classical simulations. An alternative approach constitutes in building highly-controlled quantum simulators, whose individual constituents behave quantum mechanically and interact according to a set of dynamically-controllable microscopic parameters.
Our goal is to extend the applicability of cold-atom quantum simulators in order to study topological many-body physics, frustrated phases of matter and exotic out-of-equilibrium dynamics. Moreover, we are trying to push the level of local control over the microscopic parameters of the system for future applications in digital quantum computation and quantum simulation of high-energy physics.