RÉactions, Structure et Astrophysique Nucléaire: Experiences et Théories (RESANET)
Fundamental nuclear physics focuses on the quantum and statistical properties of the atomic nucleus and on fundamental symmetries. It provides a framework for investigating the many-body problem and effective approaches, and it naturally benefits from studies carried out at particle accelerators. It is also closely connected to many disciplines, as it shares theoretical concepts with condensed matter physics, atomic physics, and quantum chemistry. Furthermore, it helps decipher signals from the universe to understand the origin of nuclei, violent astrophysical processes such as novae, kilonovae, and supernovae, as well as compact stars like neutron stars.
In this context, the GDR RESANET (Nuclear Reactions, Structure, and Astrophysics: Experiments and Theories) will foster the exchange of new theoretical and experimental ideas and strengthen collaborations at the interfaces with other disciplines. The GDR’s mission is to unite research teams from the CNRS, universities, and the CEA working on low-energy nuclear physics—experimental, theoretical, and observational—around shared actions and projects.
For more information consult here.
EURO-LABS (2022-2026):
EURO-LABS is a network of 33 research and academic institutions from 18 countries (25 beneficiaries and 8 associated partners) from European and non-EU countries, involving 45 Research Infrastructures in the Nuclear physics, Accelerators and Detectors pillars. Within this large network, EURO-LABS will ensure diversity and actively support researchers from different nationalities, gender, age, grade, and variety of professional expertise.
The aims of EURO-LABS are :
- Fostering the sharing of knowledge and technologies across scientific fields;
- Creating synergies and collaborations between the RIs of the Nuclear and High Energy communities;
- Building up a super community of sub-atomic researchers and the associated technical staff;
- Enhancing Europe’s potential for successfully facing the upcoming new challenges of the coming decades.
This project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement
grant agreement N° 871072.
