QM has recently launched its quantum computing initiative, which takes its origin in QM core research activities involving various aspects of the mathematical foundation of quantum theory. The goal of this initiative aims to increase the quantum hardware scalability, advance the progress in quantum information processing, and accelerate the application of practical quantum technologies with potentially radical impact on our society and economy.
In the first phase, various quantum computing platforms and their applications will be explored. Examples include:
- Develop new quantum mathematical components for climate and weather models (in collaboration with the Danish Meteorological Institute and the SDU climate cluster)
- Build Scalable Continuous Variable Cluster State Quantum Technologies (in collaboration with Center for Macroscopic Quantum States at DTU, Palacky University Olomouc, Heidelberg University, Q.ant GmbH, Johannes Gutenberg University of Mainz, Sorbonne Université, Centre Suisse d’Electronique et de Microtechnique SA)
- Use Gaussian Boson Samplers to enhance the optimization of the referral pathways of fatty liver diseases (in collaboration with with Centre of Liver Research, OUH)
- Build the Danish Quantum Internet (in collaboration with SDU, DTU and University of Copenhagen and 5 Danish public authorities: The Ministry of Industry, Business and Financial Affairs, the Ministry of Foreign Affairs of Denmark, the Ministry of Higher Education and Science and the Danish Ministry of Defence)
- Topological quantum computing platform for gate-based algorithm
Contact
Professor Jørgen Ellegaard Andersen, Director of the Centre for Quantum Mathematics, D-IAS Chair