Our research profile
Our research group focuses on foundational questions in quantum information and open quantum systems. A first major topic is the phenomenon of quantum entanglement between two or more particles. Here, we are developing analytical approaches to characterize the different forms of entanglement and their usefulness.
A second major topic is quantum thermodynamics. There, we extend and refine the thermodynamical laws using tools from quantum optics and information theory in order to understand how microscopic quantum systems exchange heat, work, and information with their environment.
Third, we are developing methods to analyze and improve quantum information processing devices using tools like shadow tomography or error mitigation.
In this research, the group forges a bridge from advanced mathematical methods to collaborations with experimentalists. We work closely with other groups doing quantum science at the University of Siegen. In addition, we collaborate with many partners around the world, e.g., from Austria, Brazil, China, France, Poland, Spain, and Sweden.
Main research areas
- Multi-particle Entanglement
- Graph States and the Stabilizer Formalism
- Theory of Measurements in Quantum Mechanics
- Open Quantum Systems
- Bayesian Metrology
- Shadow Tomography
Our courses
We offer various lectures and courses for the Bachelor's degree program in Physics, the Master's degree program in Physics, and the Master's degree program in Quantum Science program. The courses of the current semester can be viewed and booked on unsiono and can be booked. The regularly offered courses are
- Introduction to Quantum Theory
- Concepts of Quantum Science
- Quantum Thermodynamics
- Key Concepts of Theoretical Physics
- Foundations of Quantum Mechanics
- Quantum Information Theory
- Machine Learning
Our publications
Detecting coherence via spectrum estimation
Detecting coherence via spectrum estimation
Erratum: Quantifying entanglement of maximal dimension in bipartite mixed States (Physical Review Letters (2016) 117 (190502) DOI: 10.1103/PhysRevLett.117.190502)
Erratum: Quantifying entanglement of maximal dimension in bipartite mixed States (Physical Review Letters (2016) 117 (190502) DOI: 10.1103/PhysRevLett.117.190502)
Quantum steering
Quantum steering
Almost thermal operations: inhomogeneous reservoirs
Almost thermal operations: inhomogeneous reservoirs
Changing the circuit-depth complexity of measurement-based quantum computation with hypergraph states
Changing the circuit-depth complexity of measurement-based quantum computation with hypergraph states
Daemonic Ergotropy: Generalised Measurements and Multipartite Settings
Daemonic Ergotropy: Generalised Measurements and Multipartite Settings
Entropic uncertainty relations from quantum designs
Entropic uncertainty relations from quantum designs
Optimal verification of general bipartite pure states
Optimal verification of general bipartite pure states
Quantum absorption refrigerator with trapped ions
Quantum absorption refrigerator with trapped ions
Macroscopicity of quantum mechanical superposition tests via hypothesis falsification
Macroscopicity of quantum mechanical superposition tests via hypothesis falsification
Characterizing multipartite entanglement classes via higher-dimensional embeddings
Characterizing multipartite entanglement classes via higher-dimensional embeddings
Entanglement detection with scrambled data
Entanglement detection with scrambled data
Postal address
University of Siegen
Department of Physics
Emmy-Noether-Campus
Walter-Flex-Straße 3
57072 Siegen
Germany
Visitor address
University of Siegen
Department of Physics
Emmy-Noether-Campus, Room B-107
Walter-Flex-Straße 3
57072 Siegen
Germany
Secretariat
You can find the contact details of the group members in the team overview.