Exploring and mastering quantum interactions
The “Quantum Interactions and Control” (ICQ) department brings together two groups of theorists whose research focuses on quantum systems and their interactions.
Their work covers a wide range of topics, including molecular and atomic spectroscopy, molecular reactive collision dynamics, metrological spectroscopy, control of quantum systems by electromagnetic fields, quantum nano-optics, quantum information, and nonlinear dynamics with applications to optical fibers.
The members of the department take a distinctly interdisciplinary approach, working closely with teams in mathematics, physics, chemistry, planetary science, and astrophysics. These two groups benefit from an extensive network of collaborations with experimental teams at the local, national, and international levels.
Research topics
Molecules, Atoms, Reactivity and Scattering (MARS)
The MARS team focuses on molecular and atomic spectroscopy as well as molecular reaction dynamics. Their research has diverse applications, including atmospheric and environmental physics, astrophysics, planetary science, and high-precision metrology.
The team is committed to sharing molecular spectroscopy data, notably through the creation of databases and software tools. Moreover, science communication and the promotion of scientific culture are central to the team’s mission, whether targeting students or the general public
- V. Boudon (DR CNRS)
- T. Gabard (MCF UBE)
- G. Guillon (MCF UBE)
- P. Honvault (PR UMLP)
- M. Lepers (CR CNRS)
- C. Leroy (PR UBE)
- M. Loëte (PR UBE émérite)
- C. Richard (IR CNRS)
Boudon.Vincent@ube.fr
Tél. +33 3 80 39 59 71
Dijon Technologies Quantiques (DiTeQ)
The DiTeQ team is an interdisciplinary group of physicists, chemists, and mathematicians studying a range of topics related to quantum technologies, including quantum computing, sensing, and simulation. The team’s primary goal is to model and develop mathematical and numerical tools to perform robust, high-precision quantum operations while optimizing energy resources.
Experimental implementation of these approaches is carried out locally using a confocal setup that exploits color centers in diamond. Collaborations with other experimental quantum platforms also contribute to the application of our theoretical tools.
- C. Babin (MCF UBE)
- S. Guérin (PR UBE)
- F. Gatti (DR CNRS)
- F. Holweck (PR UTBM)
- H. Jauslin (PR UBE émérite)
- J. Lampart (CR CNRS)
- C. Lombard-Latune (CPJ UBE)
- D. Sugny (PR UBE)
Dominique.Sugny@ube.fr
Tél. +33 3 80 39 59 72
