Add to ORKGClose-in super-Earths having radii 1–4 R ⊕ may possess hydrogen atmospheres comprising a few percent by mass of their rocky cores. We determine the conditions under which such atmospheres can be accreted by cores from their parent circumstellar disks. Accretion from the nebula is problematic because it is too efficient: we find that 10-M ⊕ cores embedded in solar metallicity disks tend to undergo runaway gas accretion and explode into Jupiters, irrespective of orbital location. The threat of runaway is especially dire at ∼0.1 AU, where solids may coagulate on timescales orders of magnitude shorter than gas clearing times; thus nascent atmospheres on close-in orbits are unlikely to be supported against collapse by planetesimal accretion. The...
We know now that discs of gas and dust, so-called protoplanetary discs, form planets as side-product...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Sub-Saturns straddle the boundary between gas-rich Jupiters and gas-poor super-Earths/sub-Neptunes. ...
Numerical simulations show that the migration of growing planetary cores may be dominated by turbule...
Recent observations found close-in planets with significant atmospheres of hydrogen and helium in gr...
Some recently discovered short-period Earth- to Neptune-sized exoplanets (super-Earths) have low obs...
Article in press. This is an unofficial preprint prepared by the authors from the accepted manuscrip...
In the core accretion hypothesis, giant planets form by gas accretion onto solid protoplanetary core...
Before now, models have not been successful in predicting the rapid growth of rocky cores of gas gia...
Some recently discovered short-period Earth- to Neptune-sized exoplanets (super-Earths) have low obs...
The standard model for giant planet formation is based on the accretion of solids by a growing plane...
Nearly 15%-20% of solar type stars contain one or more gas giant planets. According to the core-accr...
The formation of cold gas giants similar to Jupiter and Saturn in orbit and mass is a great challeng...
Context. Recent observations found close-in planets with significant atmospheres of hydrogen and hel...
The majority of gas giants (planets of masses ≳10^2 M⊕) are found to reside at distances beyond ~1 a...
We know now that discs of gas and dust, so-called protoplanetary discs, form planets as side-product...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Sub-Saturns straddle the boundary between gas-rich Jupiters and gas-poor super-Earths/sub-Neptunes. ...
Numerical simulations show that the migration of growing planetary cores may be dominated by turbule...
Recent observations found close-in planets with significant atmospheres of hydrogen and helium in gr...
Some recently discovered short-period Earth- to Neptune-sized exoplanets (super-Earths) have low obs...
Article in press. This is an unofficial preprint prepared by the authors from the accepted manuscrip...
In the core accretion hypothesis, giant planets form by gas accretion onto solid protoplanetary core...
Before now, models have not been successful in predicting the rapid growth of rocky cores of gas gia...
Some recently discovered short-period Earth- to Neptune-sized exoplanets (super-Earths) have low obs...
The standard model for giant planet formation is based on the accretion of solids by a growing plane...
Nearly 15%-20% of solar type stars contain one or more gas giant planets. According to the core-accr...
The formation of cold gas giants similar to Jupiter and Saturn in orbit and mass is a great challeng...
Context. Recent observations found close-in planets with significant atmospheres of hydrogen and hel...
The majority of gas giants (planets of masses ≳10^2 M⊕) are found to reside at distances beyond ~1 a...
We know now that discs of gas and dust, so-called protoplanetary discs, form planets as side-product...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Sub-Saturns straddle the boundary between gas-rich Jupiters and gas-poor super-Earths/sub-Neptunes. ...