Research Groups
The research groups listed bellow participate in lecturing, tutoring and supervising PhD students in the IMPRS for Quantum Science and Technology. All these groups belong to the cluster Munich Center for Quantum Science and Technology.
For an overview of the research fields please go to this section.
For specific subjects please refer to the webpages of the individual groups by clicking the links bellow.
Prof. Monika Aidelsburger
Ultracold atoms in optical lattices, topology, many-body physics
Dr. Mari Carmen Bañuls
Tensor network methods, quantum many-body systems out-of-equilibrium, lattice gauge theories, constrained dynamical models and numerical simulation of quantum many-body systems
Prof. Immanuel Bloch
Quantum optics, quantum many body physics and ultracold atoms
Dr. Dominik Bucher
Quantum sensing, NV-diamond, spin physics and magnetic resonance spectroscopy
Prof. Ignacio Cirac
Quantum optics, quantum many body physics and quantum information
Dr. Frank Deppe
Superconducting quantum circuits and nanomechanics
Dr. Stephan Dürr
Rydberg Quantum Photonics
Dr. Stefan Filipp
Superconducting quantum devices, multi-qubit entanglement and quantum computing
Prof. Jonathan Finley
Semiconductor nanostructures, nanotechnology and quantum optics
Prof. Steffen Glaser
Quantum information, quantum control, NMR and spectroscopy
Prof. Rudolf Gross
Quantum information, quantum many body physics and mathematical foundations
Prof. Theodor Hänsch
Quantum many body physics, quantum optics and laser physics
Prof. Alexander Högele
Quantum nano-systems, quantum dots and quantum optics
Prof. Alexander Holleitner
Quantum nano-systems, quantum many body physics and optoelectronics
Prof. Michael Knap
Non-equilibrium quantum dynamics, ultracold quantum gases, correlated quantum Materials
Prof. Johannes Knolle
Theory of Quantum Matter, Correlated and Topological Materials, Non-Equilibrium Dynamics
Prof. Robert König
Storage, manipulation and transmission of quantum information
Dr. Sergej Moroz
Topological phases in condensed matter, quantum fluids and universal few-body quantum physics
Prof. Kai Müller
Photonic quantum engineering and nanostructure quantum photonics
Prof. Belén Paredes
Quantum matter theory, quantum simulation, topological matter and quantum computation
Prof. Lode Pollet
Computational methods, ultracold atoms and quantum many body physics
Prof. Frank Pollmann
Topological matter, quantum many body physics, and computational methods
Prof. Menno Poot
Quantum technology, optomechanics and integrated quantum optics
Prof. Matthias Punk
Quantum matter, strongly correlated systems and ultracold gases
Dr. Andreas Reiserer
Quantum Networks
Prof. Gerhard Rempe
Quantum optics, cold atoms and quantum many body physics
Dr. Christian Schilling
Quantum information, quantum many body physics and mathematical foundations
Dr. Richard Schmidt
Theory of quantum matter, few- to many-body physics with ultracold atoms, low-dimensional materials
Prof. Ulrich Schollwöck
Computational methods, condensed matter and quantum many body physics
Dr. Thomas Schulte-Herbrüggen
Quantum information and optics, and quantum nano-systems
Prof. Jan von Delft
Computational methods, condensed matter and quantum many body physics
Prof. Simone Warzel
Mathematical Physics, quantun many body and statistical physics, disordered systems
Prof. Harald Weinfurter
Quantum information, quantum many body systems and quantum optics
Prof. Michael Wolf
Quantum information, quantum many body physics and mathematical foundations
Dr. Johannes Zeiher
Quantum many-body physics, ultracold atoms in optical lattices, Rydberg atoms