Add to ORKGThe role of negative feedback from amassive solid core on its massive gas envelope in the TidalDownsizing scenario of planet formation is investigated via one-dimensional planet evolutionmodels followed by population synthesis calculations. It is shown that cores more massivethan ∼10M⊕ release enough energy to reverse contraction of their parent gas envelopes,culminating in their destruction. This process may help to explain why observed gas giantplanets are so rare, why massive cores are so ubiquitous, and why there is a sharp rollover inthe core mass function above ∼20M⊕. Additionally, the short time-scales with which thesemassive cores are assembled in TD may help explain formation route of Uranus, Neptune andthe suspected HL Tau planets...
We examine the predictions of the core accretion – gas capture model concerning the efficiency of pl...
Neptune is the outermost of the four giant planets in our solar system. The region in which Neptune ...
Context. According to planetary interior models, some giant planets contain large metal masses with ...
The role of negative feedback from amassive solid core on its massive gas envelope in the TidalDowns...
Tidal downsizing (TD) is a recently developed planet formation theory that supplements the classical...
We hypothesize that planets are made by tidal downsizing of migrating giant planet embryos. The prop...
Core Accretion (CA), the most widely accepted scenario for planet formation, postu-lates existence o...
A large population of planetary candidates in short-period orbits have been found recently through t...
Formation theories for planets are facing significant challenges in the light of observed planets an...
Giant planet formation in the core accretion plus gas capture (CA) paradigm is predicated by the for...
Aims. We describe the growth of gas giant planets in the core accretion scenario. The core growth is...
Tidal Downsizing scenario of planet formation builds on ideas proposed by Gerard Kuiper in 1951. Det...
A large population of planetary candidates in short-period orbits have been found recently through t...
Aims. We examine the uncertainties in current planetary models and quantify their impact on the plan...
Abstract. Tidal dissipation in planetary interiors is one of the key physical mechanisms that drive ...
We examine the predictions of the core accretion – gas capture model concerning the efficiency of pl...
Neptune is the outermost of the four giant planets in our solar system. The region in which Neptune ...
Context. According to planetary interior models, some giant planets contain large metal masses with ...
The role of negative feedback from amassive solid core on its massive gas envelope in the TidalDowns...
Tidal downsizing (TD) is a recently developed planet formation theory that supplements the classical...
We hypothesize that planets are made by tidal downsizing of migrating giant planet embryos. The prop...
Core Accretion (CA), the most widely accepted scenario for planet formation, postu-lates existence o...
A large population of planetary candidates in short-period orbits have been found recently through t...
Formation theories for planets are facing significant challenges in the light of observed planets an...
Giant planet formation in the core accretion plus gas capture (CA) paradigm is predicated by the for...
Aims. We describe the growth of gas giant planets in the core accretion scenario. The core growth is...
Tidal Downsizing scenario of planet formation builds on ideas proposed by Gerard Kuiper in 1951. Det...
A large population of planetary candidates in short-period orbits have been found recently through t...
Aims. We examine the uncertainties in current planetary models and quantify their impact on the plan...
Abstract. Tidal dissipation in planetary interiors is one of the key physical mechanisms that drive ...
We examine the predictions of the core accretion – gas capture model concerning the efficiency of pl...
Neptune is the outermost of the four giant planets in our solar system. The region in which Neptune ...
Context. According to planetary interior models, some giant planets contain large metal masses with ...