Recent observations have found a valley in the size distribution of close-in super-Earths that is interpreted as a signpost that close-in super-Earths are mostly rocky in composition. However, new models predict that planetesimals should first form at the water ice line such that close-in planets are expected to have a significant water ice component. Here we investigate the water contents of super-Earths by studying the interplay between pebble accretion, planet migration and disc evolution. Planets' compositions are determined by their position relative to different condensation fronts (ice lines) throughout their growth. Migration plays a key role. Assuming that planetesimals start at or exterior to the water ice line (r > rH2O), inwa...
At least 30% of main sequence stars host planets with sizes of between 1 and 4 Earth radii and orbit...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
Exoplanet surveys have discovered that a large fraction of planetary systems (perhaps, a third aroun...
Recent observations have found a valley in the size distribution of close-in super-Earths that is in...
Recent observations have found a valley in the size distribution of close-in super-Earths that is in...
The temperature and density profiles of protoplanetary discs depend crucially on the mass fraction o...
The temperature and density profiles of protoplanetary discs depend crucially on the mass fraction o...
A leading model for the origin of super-Earths proposes that planetary embryos migrate inward and pi...
In the pebble accretion scenario, the pebbles that form planets drift inward from the outer disk reg...
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...
Super-Earths – planets with sizes between the Earth and Neptune – are found in tighter orbits than t...
Super-Earths - planets with sizes between the Earth and Neptune - are found in tighter orbits than t...
Context. The ocean mass of the Earth is only 2.3 × 10−4 of the whole planet mass. Even including wat...
Observations have revealed that super-Earths (planets up to 10 Earth masses) are the most abundant t...
At least 30% of main sequence stars host planets with sizes of between 1 and 4 Earth radii and orbit...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
Exoplanet surveys have discovered that a large fraction of planetary systems (perhaps, a third aroun...
Recent observations have found a valley in the size distribution of close-in super-Earths that is in...
Recent observations have found a valley in the size distribution of close-in super-Earths that is in...
The temperature and density profiles of protoplanetary discs depend crucially on the mass fraction o...
The temperature and density profiles of protoplanetary discs depend crucially on the mass fraction o...
A leading model for the origin of super-Earths proposes that planetary embryos migrate inward and pi...
In the pebble accretion scenario, the pebbles that form planets drift inward from the outer disk reg...
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...
Super-Earths – planets with sizes between the Earth and Neptune – are found in tighter orbits than t...
Super-Earths - planets with sizes between the Earth and Neptune - are found in tighter orbits than t...
Context. The ocean mass of the Earth is only 2.3 × 10−4 of the whole planet mass. Even including wat...
Observations have revealed that super-Earths (planets up to 10 Earth masses) are the most abundant t...
At least 30% of main sequence stars host planets with sizes of between 1 and 4 Earth radii and orbit...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
Exoplanet surveys have discovered that a large fraction of planetary systems (perhaps, a third aroun...