Diversity of exoplanetary systems - Formation of the solar system - Emergence of life - Leadership in interferometry - Leadership in modelling planet formation and evolution - Strong activity around small bodies/sample analysis
Modelling forces : Geodesy - Internal structure of planets: moon, Jupiter, and exoplanets - Formation of planets - Discs - Impact simulations - Small bodies - Convection in stars - Evolution in stars - Pulsations - Rotation
Observing forces : Bepi-Colombo - ASTEP - JUNO - JWST - Gravity+/SPHERE+ - Matisse - PLATO/ARIEL - HERA, OSIRIS-REX - Gaia (several WP) - SPICAA
PEPR Origins
Stars-Planets-Exoplanets : meeting new challenges
Maintaining our unique historical expertise :
- high angular resolution
- very high dynamic range imaging
- planetary formation-evolution modelling
Involvement in SNO :
- sstar-planet synergy : exploiting PLATO+SPICA
- GAIA-solar system/stellar parameters/distant objects
- SNO ANDES labelling
Comparative planetology :
- Earth system dynamic axis
Responsibility for major exoplanetary projects : SPHERE+, VLTI, ELT ANDES, PCS, LIFE
Synergies : star-planets - sample analysis - comparative planetology
Databases via OCA-SNO-Num
HPC-IA digital tools : Role of MSI-UCA?
Contacts
Tristan Guillot, directeur de recherche CNRS, laboratoire Lagrange (Université Côte d'Azur - Observatoire de la Côte d'Azur - CNRS) - tristan.guillot@oca.eu
Nicolas Nardetto, chercheur CNRS, laboratoire Lagrange (Université Côte d'Azur - Observatoire de la Côte d'Azur - CNRS) - Nicolas.Nardetto@oca.eu
