Uses numerical methods to understand the behaviour of interacting atoms, identify relevant observables for experiments, and study the localization properties of matter waves

Investigates what can be known about a quantum system, for example through quantum state tomography. Also works on cold atoms in lattices including graphene-like structures.

Explores the foundations of quantum theory. Particular interests include whether there exists a quantum-classical boundary, contextuality and constraints on quantum correlations.

Website:
http://dag.quantumlah.org

Investigates quantum optical implementations of quantum computation and quantum simulation bridging theory with experiments. Particular interests include quantum simulations of condensed matter, chemistry and material science, quantum machine learning, and applications of topological physics in quantum technologies

Website:
http://dimitrisangelakis.org/

Works on quantum information with a particular focus on applied systems, including quantum processors and simulators.

Our group research is mainly focused on the theory of quantum communication, cryptography, and correlations. We work on the security of quantum cryptography and the foundations of quantum information processing.

Website:
https://www.ccwlim.com/

Main research areas are quantum phase factors and their application, decoherence, contextuality, entanglement and other measures of quantum correlations.

Our group has two research interests. The first is nonlocality, notably self-testing and device-independent principles. The second is quantum optics and quantum thermodynamics, bridging theory and experiments.

Website:
http://conneqt.quantumlah.org/

Investigates topics in quantum information ranging from discord, an alternative measure of quantum correlation, to thermodynamics. Ventures into quantum biology.

Website:
https://qreality.quantumlah.org/