The following research groups at RWTH Aachen work on quantum computing in its various aspects.

(If your group should be listed here, please contact Dominique Unruh.)

Further research groups in the Aachen area can be found also here:

Research groups

Quantum Information Systems

Department of Computer Science. Led by Dominique Unruh.

We cover aspects of quantum computing from the theoretical computer science perspective. Particular interests lie in the verification of quantum program, quantum logics, (post-)quantum cryptography.

Quantum Technology Group

Department of Physics. Led by Hendrik Bluhm and Lars Schreiber.

Dedicated to the experimental investigation of semiconductor spin-qubits and to scanning SQUID spectroscopy, complemented by activities that tackle problems related to the scalability of qubit architectures, such as material growth homogeneity, device fabrication yield, the exploration of cryogenic qubit control systems and the development of efficient automated methods for tuning qubits.

Quantum Information, DiVincenzo group

Department of Physics. Led by David DiVincenzo.

We work on the physical theory of solid state qubits, both spin-based and superconducting. The objective is to identify routes to improve the basic functioning of these qubits. We work both on optimized control strategies, as well as we try to identify new routes to improve coherence times and enhance reproducibility. We also study how qubits work in systems, exploring new coupling schemes and studying the compatibility of different qubit architectures with high precision initialization and measurement methods.

Quantum Information, Hassler group

Department of Physics. Led by Fabian Hassler.

The research of the group is in the field of mesoscopic physics at the interface of condensed matter and quantum Information theory.

Quantum Information, Müller group

Department of Physics. Led by Markus Müller.

Our research in theoretical quantum physics is mainly centred on scalable quantum computation and quantum simulation, with a focus on the development of implementations in atomic, molecular and optical (AMO) systems. The research brings together concepts from various fields such as quantum computation and algorithms, computer science, statistical physics, machine learning, quantum optics and atomic physics.

Quantum Information Theory

Department of Physics. Led by Mario Berta.

Our research is on mathematical questions in quantum information science, focusing on quantum communication, quantum cryptography, and quantum algorithms.