Building planetary systems linking architectures with formation
The last few years have seen an explosion in our knowledge of extra-solar planetary systems. However, most exoplanetary systems look nothing like our own: we see hot Jupiters which take just days to orbit their parent stars, plane...
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Información proyecto BuildingPlanS
Duración del proyecto: 67 meses
Fecha Inicio: 2016-04-05
Fecha Fin: 2021-11-30
Líder del proyecto
UNIVERSITY OF LEICESTER
No se ha especificado una descripción o un objeto social para esta compañía.
TRL
4-5
Presupuesto del proyecto
2M€
Fecha límite de participación
Sin fecha límite de participación.
Descripción del proyecto
The last few years have seen an explosion in our knowledge of extra-solar planetary systems. However, most exoplanetary systems look nothing like our own: we see hot Jupiters which take just days to orbit their parent stars, planets which meander across entire solar systems on highly eccentric orbits, and even planets orbiting twin, binary suns. These planets formed in relatively homogenous discs of cold dust and gas around young, newly-formed stars, but we do not yet understand how this extraordinarily diverse range of planetary architectures was assembled.
BuildingPlanS will establish how the observed architectures of exoplanets link to the physics of their formation. My team will build comprehensive models of the assembly of planetary systems, in order to:
1) understand how systems of giant planets are built.
2) understand the assembly of compact, tightly-packed planetary systems.
3) determine where and when planets form around binary stars.
By focusing on the three main types of known planetary systems we will determine how key physical processes operate in a wide variety of different environments, and build up a detailed understanding of how planetary systems form and evolve. Recently I have played a key role in developing a robust theory of how young, gas-rich protoplanetary discs evolve; this project will establish how these new ideas shape the formation and evolution of planetary systems. My team will consider how forming and newly-formed planets interact with their parent discs, in order to understand the architectures of young planetary systems. We will then follow how these young systems evolve to maturity over billions of years, and test our results against both new observations of planet-forming discs and our ever-growing census of exoplanetary systems. The overall aim of BuildingPlanS is to link exoplanet architectures with their formation and establish a global picture of how planetary systems are built.