Add to ORKGWe review results about protoplanetary disk models, protoplanet migration and formation of giant planets with migrating cores. We first model the protoplanetary nebula as an \alpha-accretion disk and present steady state calculations for different values of \alpha and gas accretion rate through the disk. We then review the current theories of protoplanet migration in the context of these models, focusing on the gaseous disk-protoplanet tidal interaction. According to these theories, the migration timescale may be shorter than the planetary formation timescale. Therefore we investigate planet formation in the context of a migrating core, considering both the growth of the core and the build-up of the envelope in the course of the migration
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
Planets are believed to form in primordial gas-dust discs surrounding newborn stars. An important br...
Key Words accretion disk, planet formation, planetary systems Abstract As planets form and grow with...
We review results about protoplanetary disk models, protoplanet migration and formation of giant pla...
In the current paper, we further improved the model for the migration of planets introduced in Del P...
We review models of protoplanetary disks. In the earlier stages of evolution, disks are subject to g...
We present models of giant planet migration in evolving protoplanetary disks. Our disks evolve subje...
(Abridged) We consider models of gas giant planets forming in protoplanetary disks consisting of sol...
We extend the core-accretion model of giant gaseous planets by Pollack et al. ([CITE]) to include mi...
This thesis describes efforts to improve the realism of numerical models of giant planet formation a...
The formation of planets depends on the underlying protoplanetary disc structure, which in turn infl...
Context.Theory predicts that low mass protoplanets in a laminar protostellar disc will migrate into ...
Context. According to the sequential accretion model (or core nucleated accretion model), giant plan...
In a further development of a deterministic planet formation model (Ida & Lin), we consider the ...
Aims. Massive planets that open a gap in the accretion disk are believed to migrate with exactly the...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
Planets are believed to form in primordial gas-dust discs surrounding newborn stars. An important br...
Key Words accretion disk, planet formation, planetary systems Abstract As planets form and grow with...
We review results about protoplanetary disk models, protoplanet migration and formation of giant pla...
In the current paper, we further improved the model for the migration of planets introduced in Del P...
We review models of protoplanetary disks. In the earlier stages of evolution, disks are subject to g...
We present models of giant planet migration in evolving protoplanetary disks. Our disks evolve subje...
(Abridged) We consider models of gas giant planets forming in protoplanetary disks consisting of sol...
We extend the core-accretion model of giant gaseous planets by Pollack et al. ([CITE]) to include mi...
This thesis describes efforts to improve the realism of numerical models of giant planet formation a...
The formation of planets depends on the underlying protoplanetary disc structure, which in turn infl...
Context.Theory predicts that low mass protoplanets in a laminar protostellar disc will migrate into ...
Context. According to the sequential accretion model (or core nucleated accretion model), giant plan...
In a further development of a deterministic planet formation model (Ida & Lin), we consider the ...
Aims. Massive planets that open a gap in the accretion disk are believed to migrate with exactly the...
Giant planets migrate though the protoplanetary disc as they grow their solid core and attract their...
Planets are believed to form in primordial gas-dust discs surrounding newborn stars. An important br...
Key Words accretion disk, planet formation, planetary systems Abstract As planets form and grow with...