Add to ORKGWith the aim of studying the final mass distribution of extrasolar planets, we have developed a simple model based on the core instability model, which allows us to form a large population of planets and make them evolve in circumstellar discs with various initial conditions. We investigate the consequences that different prescriptions for the solid and gas accretion rates would have on this distribution and found that it is strongly dependent on the adopted model for the gas accretion.Facultad de Ciencias Astronómicas y GeofísicasInstituto de Astrofísica de La Plat
In this Thesis I studied the formation of the four giant planets of the Solar System in the framewor...
According to the prevailing core instability model, giant planets begin their growth by the accumula...
This project investigates the origin of giant planets, both in the Solar System and around other sta...
With the aim of studying the final mass distribution of extrasolar planets, we have developed a simp...
We develop a simple model for computing planetary formation based on the core instability model for ...
In order to explain the main characteristics of the observed population of extrasolar planets and th...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Giant planet formation process is still not completely understood. The current most accepted paradig...
We investigate the problem of giant planet formation around stars with various masses based on the c...
We examine the predictions of the core accretion - gas capture model concerning the efficiency of pl...
Models were developed to simulate planet formation. Three major phases are characterized in the simu...
The recent discoveries of massive planets on ultra-wide orbits of HR 8799 and Fomalhaut present a ne...
Aims. In the context of the core instability model, we present calculations of in situ giant planet ...
The recent discoveries of massive planets on ultra-wide orbits of HR 8799 and Fomalhaut present a ne...
Aims. The equation of state calculated by Saumon and collaborators has been adopted in most core-acc...
In this Thesis I studied the formation of the four giant planets of the Solar System in the framewor...
According to the prevailing core instability model, giant planets begin their growth by the accumula...
This project investigates the origin of giant planets, both in the Solar System and around other sta...
With the aim of studying the final mass distribution of extrasolar planets, we have developed a simp...
We develop a simple model for computing planetary formation based on the core instability model for ...
In order to explain the main characteristics of the observed population of extrasolar planets and th...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Giant planet formation process is still not completely understood. The current most accepted paradig...
We investigate the problem of giant planet formation around stars with various masses based on the c...
We examine the predictions of the core accretion - gas capture model concerning the efficiency of pl...
Models were developed to simulate planet formation. Three major phases are characterized in the simu...
The recent discoveries of massive planets on ultra-wide orbits of HR 8799 and Fomalhaut present a ne...
Aims. In the context of the core instability model, we present calculations of in situ giant planet ...
The recent discoveries of massive planets on ultra-wide orbits of HR 8799 and Fomalhaut present a ne...
Aims. The equation of state calculated by Saumon and collaborators has been adopted in most core-acc...
In this Thesis I studied the formation of the four giant planets of the Solar System in the framewor...
According to the prevailing core instability model, giant planets begin their growth by the accumula...
This project investigates the origin of giant planets, both in the Solar System and around other sta...