Context. In the standard scenario of planet formation, terrestrial planets and the cores of the giant planets are formed by accretion of planetesimals. As planetary embryos grow, the planetesimal velocity dispersion increases because of gravitational excitations produced by embryos. The increasing relative velocities of the planetesimal cause them to fragment through mutual collisions. Aims. We study the role of planetesimal fragmentation on giant planet formation. We analyze how planetesimal fragmentation modifies the growth of giant planet cores for a wide range of planetesimal sizes and disk masses. Methods. We incorporated a model of planetesimal fragmentation into our model of in situ giant planet formation. We calculated the evolution...
Context. The core accretion mechanism is presently the most widely accepted cause of the formation o...
Context. The core accretion mechanism is presently the most widely accepted cause of the formation o...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Context. In the standard scenario of planet formation, terrestrial planets and the cores of the gian...
Context. In the standard scenario of planet formation, terrestrial planets and the cores of the gian...
Context. In the standard scenario of planet formation, terrestrial planets and the cores of the gian...
Context. The effects of planetesimal fragmentation on planet formation has been studied by various m...
In the standard model of core accretion, the cores of the giant planets form by the accretion of pla...
In the standard model of core accretion, the cores of the giant planets form by the accretion of pla...
In the standard model of core accretion, the cores of the giant planets form by the accretion of pla...
In the standard model of core accretion, the cores of the giant planets form by the accretion of pla...
Context. Most planet formation models that incorporate planetesimal fragmentation consider a catastr...
Context. Most planet formation models that incorporate planetesimal fragmentation consider a catastr...
An accurate numerical model of solar system formation requires understanding how planetesimals grow ...
An unsolved issue in the standard core accretion model for gaseous planet formation is how kilometr...
Context. The core accretion mechanism is presently the most widely accepted cause of the formation o...
Context. The core accretion mechanism is presently the most widely accepted cause of the formation o...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Context. In the standard scenario of planet formation, terrestrial planets and the cores of the gian...
Context. In the standard scenario of planet formation, terrestrial planets and the cores of the gian...
Context. In the standard scenario of planet formation, terrestrial planets and the cores of the gian...
Context. The effects of planetesimal fragmentation on planet formation has been studied by various m...
In the standard model of core accretion, the cores of the giant planets form by the accretion of pla...
In the standard model of core accretion, the cores of the giant planets form by the accretion of pla...
In the standard model of core accretion, the cores of the giant planets form by the accretion of pla...
In the standard model of core accretion, the cores of the giant planets form by the accretion of pla...
Context. Most planet formation models that incorporate planetesimal fragmentation consider a catastr...
Context. Most planet formation models that incorporate planetesimal fragmentation consider a catastr...
An accurate numerical model of solar system formation requires understanding how planetesimals grow ...
An unsolved issue in the standard core accretion model for gaseous planet formation is how kilometr...
Context. The core accretion mechanism is presently the most widely accepted cause of the formation o...
Context. The core accretion mechanism is presently the most widely accepted cause of the formation o...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...