Add to ORKGRecent advances in understanding planetary formation indicate that mass and energy accumulation are dominated the impact of objects containing up to several percent of the protoplanet's mass. This work examines consequences of such "giant" impacts, including the initiation of core formation and the development and subsequent evolution of deep magma oceans. Large, high speed impacts on silicate planets with masses >∼10²³ kg result in formation of intact melt regions. Iron rapidly settles to the melt region's base, forming a negatively buoyant mass. If the differential stress generated by this mass too large, it overcomes the elastic strength of the mantle beneath and rapidly forms a core. The same process might also trigger differentiation o...
Systems of close-in super-Earths and mini-Neptunes display striking diversity in planetary bulk dens...
Mini-Neptunes and volatile-poor super-Earths coexist on adjacent orbits in proximity to host stars s...
Understanding how planets form is similar to a detective working a crime scene. The end results are ...
Ideas about the accretion and early evolution of the Earth and the other terrestrial planets have re...
International audienceA giant impact is an increasingly popular explanation for the formation of the...
[1] We investigate the direct thermal effects of giant impacts on the Martian core and its dynamo. S...
The ε¹⁸²W ages of magmatic iron meteorites are largely within error of the oldest solar system parti...
International audienceSimulations of the solar system formation as well as the diversity of meteorit...
Kelvin calculated the age of the Earth to be about 24 million years by assuming conductive cooling f...
Giant impacts are disruptive events occurring in the early stages of planetary evolution. They may r...
We use hydrodynamic modelling combined with known data on mantle melting behaviour to examine the po...
cited By 49A classic scenario of core formation suggests that growing proto-planets are heated by th...
Aims. We describe the growth of gas giant planets in the core accretion scenario. The core growth is...
The abundance of moderately siderophile elements (“iron-loving”; e.g., Co, Ni) in the Earth’s mantle...
Introduction: The early history of the terrestrial planets was strongly shaped by the occurrence of ...
Systems of close-in super-Earths and mini-Neptunes display striking diversity in planetary bulk dens...
Mini-Neptunes and volatile-poor super-Earths coexist on adjacent orbits in proximity to host stars s...
Understanding how planets form is similar to a detective working a crime scene. The end results are ...
Ideas about the accretion and early evolution of the Earth and the other terrestrial planets have re...
International audienceA giant impact is an increasingly popular explanation for the formation of the...
[1] We investigate the direct thermal effects of giant impacts on the Martian core and its dynamo. S...
The ε¹⁸²W ages of magmatic iron meteorites are largely within error of the oldest solar system parti...
International audienceSimulations of the solar system formation as well as the diversity of meteorit...
Kelvin calculated the age of the Earth to be about 24 million years by assuming conductive cooling f...
Giant impacts are disruptive events occurring in the early stages of planetary evolution. They may r...
We use hydrodynamic modelling combined with known data on mantle melting behaviour to examine the po...
cited By 49A classic scenario of core formation suggests that growing proto-planets are heated by th...
Aims. We describe the growth of gas giant planets in the core accretion scenario. The core growth is...
The abundance of moderately siderophile elements (“iron-loving”; e.g., Co, Ni) in the Earth’s mantle...
Introduction: The early history of the terrestrial planets was strongly shaped by the occurrence of ...
Systems of close-in super-Earths and mini-Neptunes display striking diversity in planetary bulk dens...
Mini-Neptunes and volatile-poor super-Earths coexist on adjacent orbits in proximity to host stars s...
Understanding how planets form is similar to a detective working a crime scene. The end results are ...