Project description
Advanced statistical methods to boost exploration of exoplanet evolution
Funded by the Marie Skłodowska-Curie Actions programme, the SPICES project aims to develop advanced statistical methods to image exoplanets and characterise planet-forming discs. With over 5 000 exoplanets already detected, understanding their architectures is crucial. SPICES will focus on long-period giant planets like Jupiter that influence the evolution of planetary systems and leave signatures in protoplanetary discs. As these gas-rich protoplanetary discs dissipate over time, they form terrestrial planets and second-generation dust populations. Observing these stages is key to understanding planetary formation and evolution. SPICES will bridge the gap between data analysis methods and high-quality data, providing new insight into the formation and evolution of planetary systems.
Objective
The SPICES project applies and develops state-of-the-art statistical methods to image forming exoplanets and characterize planet-forming disks. More than 5000 exoplanets have been detected as of today, showing a great diversity in planetary system architectures that is still not entirely understood. Many of these planets were found in systems that have dissipated their birth environment, and do not allow for the study of the early times of planet formation. Originally formed in gaseous protoplanetary disks surrounding newborn stars, long-period giant planets such as Jupiter shape the evolution of planetary systems including that in our own Solar System. They can gravitationally interact with disks and imprint signatures such as gaps, rings, and spiral arms. Such features are routinely observed in high resolution disk observations, suggesting that a large population of massive planets are actively sculpting protoplanetary disks. Later on, these gas-rich disks dissipate within a few Myr while terrestrial planets form, and planetesimal collisions lead to second- generation dust populations (i.e. debris disks). Observation of planetary systems in different stages is therefore key to understanding their formation and evolution. Using modern statistics-based methods, I propose the Statistics-driven Planet Imaging in Circumstellar EnvironmentS (SPICES) project to perform unprecedented inspection of planet forming disks, thus detecting planets that are embedded in disks while characterizing disk mineralogy. By doing so, I will bridge the gap between revolutionary data analysis methods in analyzing and the myriad of high-quality data, and ultimately provide new insights into the formation and evolution of planetary systems.
Fields of science
Programme(s)
- HORIZON.1.2 - Marie Skłodowska-Curie Actions (MSCA) Main Programme
Funding Scheme
HORIZON-TMA-MSCA-PF-EF - HORIZON TMA MSCA Postdoctoral Fellowships - European FellowshipsCoordinator
06304 Nice
France