Add to ORKGWe model the growth of Jupiter via core nucleated accretion, applying constraints from hydrody-namical processes that result from the disk–planet interaction. We compute the planet’s internal structure using a well tested planetary formation code that is based upon a Henyey-type stellar evolution code. The planet’s interactions with the protoplanetary disk are calculated using 3-D hy-drodynamic simulations. Previous models of Jupiter’s growth have taken the radius of the planet to be approximately one Hill sphere radius, RH. However, 3-D hydrodynamic simulations show that only gas within ∼ 0.25RH remains bound to the planet, with the more distant gas eventually participating in the shear flow of the protoplanetary disk. Therefore in our new...
This project investigates the origin of giant planets, both in the Solar System and around other sta...
This data set consists of 1D radiative-convective equilibrium boundary conditions for Jupiter-like g...
We have conducted three-dimensional self-gravitating radiation hydrodynamical models of gas accretio...
Article in press. This is an unofficial preprint prepared by the authors from the accepted manuscrip...
The standard model for giant planet formation is based on the accretion of solids by a growing plane...
In the core-accretion model the nominal runaway gas-accretion phase brings most planets to multiple ...
We know now that discs of gas and dust, so-called protoplanetary discs, form planets as side-product...
Numerical simulations show that the migration of growing planetary cores may be dominated by turbule...
Though ∼ 10M ⊕ mass rocky/icy cores are commonly held as a prerequisite for the formation of gas gia...
We present calculations of the early stages of the formation of Jupiter via core nucleated accretion...
Close-in super-Earths having radii 1–4 R ⊕ may possess hydrogen atmospheres comprising a few percent...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
The formation of cold gas giants similar to Jupiter and Saturn in orbit and mass is a great challeng...
According to the core-accretion scenario, planets form in protostellar disks through the condensatio...
We study the radius evolution of close-in extra-solar jupiters under Ohmic heating, a mechanism that...
This project investigates the origin of giant planets, both in the Solar System and around other sta...
This data set consists of 1D radiative-convective equilibrium boundary conditions for Jupiter-like g...
We have conducted three-dimensional self-gravitating radiation hydrodynamical models of gas accretio...
Article in press. This is an unofficial preprint prepared by the authors from the accepted manuscrip...
The standard model for giant planet formation is based on the accretion of solids by a growing plane...
In the core-accretion model the nominal runaway gas-accretion phase brings most planets to multiple ...
We know now that discs of gas and dust, so-called protoplanetary discs, form planets as side-product...
Numerical simulations show that the migration of growing planetary cores may be dominated by turbule...
Though ∼ 10M ⊕ mass rocky/icy cores are commonly held as a prerequisite for the formation of gas gia...
We present calculations of the early stages of the formation of Jupiter via core nucleated accretion...
Close-in super-Earths having radii 1–4 R ⊕ may possess hydrogen atmospheres comprising a few percent...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
The formation of cold gas giants similar to Jupiter and Saturn in orbit and mass is a great challeng...
According to the core-accretion scenario, planets form in protostellar disks through the condensatio...
We study the radius evolution of close-in extra-solar jupiters under Ohmic heating, a mechanism that...
This project investigates the origin of giant planets, both in the Solar System and around other sta...
This data set consists of 1D radiative-convective equilibrium boundary conditions for Jupiter-like g...
We have conducted three-dimensional self-gravitating radiation hydrodynamical models of gas accretio...