We developed a pebble-driven core accretion model to study the formation and evolution of planets around stars in the stellar mass range of 0.08 M⊙–1 M⊙. By Monte Carlo sampling of the initial conditions, the growth and migration of a large number of individual protoplanetary embryos were simulated in a population synthesis manner. We tested two hypotheses for the birth locations of embryos: at the water ice line or log-uniformly distributed over entire protoplanetary disks. Two types of disks with different turbulent viscous parameters αt of 10−3 and 10−4 are also investigated to shed light on the role of outward migration of protoplanets. The forming planets are compared with the observed exoplanets in terms of mass, semimajor axis, metal...
Giant planets migrate though the protoplanetary disc as they grow. We investigate how the formation ...
The majority of detected exoplanets are close-in super Earths (planets of a few Earth masses) orbiti...
At least 30% of main sequence stars host planets with sizes of between 1 and 4 Earth radii and orbit...
We developed a pebble-driven core accretion model to study the formation and evolution of planets ar...
Exoplanet surveys have discovered that a large fraction of planetary systems (perhaps, a third aroun...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
Super-Earths – planets with sizes between the Earth and Neptune – are found in tighter orbits than t...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
The formation of planets depends on the underlying protoplanetary disc structure, which in turn infl...
International audiencePrevious simulations of planet formation utilizing single bodies including peb...
We conduct a pebble-driven planet population synthesis study to investigate the formation of planets...
Super-Earths - planets with sizes between the Earth and Neptune - are found in tighter orbits than t...
The conditions in the protoplanetary disk are determinant for the various planet formation mechanism...
Super-Earths are found in tighter orbits than the Earth's around more than one third of main sequenc...
Super-Earths - planets with sizes between the Earth and Neptune - are found in tighter orbits than t...
Giant planets migrate though the protoplanetary disc as they grow. We investigate how the formation ...
The majority of detected exoplanets are close-in super Earths (planets of a few Earth masses) orbiti...
At least 30% of main sequence stars host planets with sizes of between 1 and 4 Earth radii and orbit...
We developed a pebble-driven core accretion model to study the formation and evolution of planets ar...
Exoplanet surveys have discovered that a large fraction of planetary systems (perhaps, a third aroun...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
Super-Earths – planets with sizes between the Earth and Neptune – are found in tighter orbits than t...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
The formation of planets depends on the underlying protoplanetary disc structure, which in turn infl...
International audiencePrevious simulations of planet formation utilizing single bodies including peb...
We conduct a pebble-driven planet population synthesis study to investigate the formation of planets...
Super-Earths - planets with sizes between the Earth and Neptune - are found in tighter orbits than t...
The conditions in the protoplanetary disk are determinant for the various planet formation mechanism...
Super-Earths are found in tighter orbits than the Earth's around more than one third of main sequenc...
Super-Earths - planets with sizes between the Earth and Neptune - are found in tighter orbits than t...
Giant planets migrate though the protoplanetary disc as they grow. We investigate how the formation ...
The majority of detected exoplanets are close-in super Earths (planets of a few Earth masses) orbiti...
At least 30% of main sequence stars host planets with sizes of between 1 and 4 Earth radii and orbit...