Add to ORKGTidal downsizing (TD) is a recently developed planet formation theory that supplements the classical gravitational instability (GI) disc model with planet migration inward and tidal disruptions of GI fragments in the inner regions of the disc. Numerical methods for a detailed population synthesis of TD planets are presented here. As an example application, the conditions under which GI fragments collapse faster than they migrate into the inner a ∼ a few AU are considered. It is found that most gas fragments are tidally or thermally disrupted unless (a) their opacity is ∼3 orders of magnitude less than the interstellar dust opacity at metallicities typical of the observed giant planets, or (b) the opacity is high but the fragments accrete la...
Context. Several recent studies have found that planet migration in adiabatic disks differs signific...
In order to understand the extended massive tidal tails of the globular cluster Pal5, its very low m...
A gas giant planet which survives the giant branch stages of evolution at a distance of many au and ...
Formation theories for planets are facing significant challenges in the light of observed planets an...
We hypothesize that planets are made by tidal downsizing of migrating giant planet embryos. The prop...
Tidal Downsizing scenario of planet formation builds on ideas proposed by Gerard Kuiper in 1951. Det...
The role of negative feedback from amassive solid core on its massive gas envelope in the TidalDowns...
It is likely that most protostellar systems undergo a brief phase where the protostellar disc is sel...
Core Accretion (CA), the most widely accepted scenario for planet formation, postu-lates existence o...
We carry out global three-dimensional radiation hydrodynamical simulations of self-gravitating accre...
We present N-body simulations of planetary system formation in thermally-evolving, viscous disc mode...
Some observed exoplanets cannot be explained in the standard core accretion paradigm. An alternative...
DHF gratefully acknowledges support from the ECOGAL project, grant agreement 291227, funded by the E...
I have carried out three-dimensional numerical simulations of self-gravitating discs to determine un...
DF and KR acknowledge support from STFC grant ST/J001422/1. DF also acknowledges support from the EC...
Context. Several recent studies have found that planet migration in adiabatic disks differs signific...
In order to understand the extended massive tidal tails of the globular cluster Pal5, its very low m...
A gas giant planet which survives the giant branch stages of evolution at a distance of many au and ...
Formation theories for planets are facing significant challenges in the light of observed planets an...
We hypothesize that planets are made by tidal downsizing of migrating giant planet embryos. The prop...
Tidal Downsizing scenario of planet formation builds on ideas proposed by Gerard Kuiper in 1951. Det...
The role of negative feedback from amassive solid core on its massive gas envelope in the TidalDowns...
It is likely that most protostellar systems undergo a brief phase where the protostellar disc is sel...
Core Accretion (CA), the most widely accepted scenario for planet formation, postu-lates existence o...
We carry out global three-dimensional radiation hydrodynamical simulations of self-gravitating accre...
We present N-body simulations of planetary system formation in thermally-evolving, viscous disc mode...
Some observed exoplanets cannot be explained in the standard core accretion paradigm. An alternative...
DHF gratefully acknowledges support from the ECOGAL project, grant agreement 291227, funded by the E...
I have carried out three-dimensional numerical simulations of self-gravitating discs to determine un...
DF and KR acknowledge support from STFC grant ST/J001422/1. DF also acknowledges support from the EC...
Context. Several recent studies have found that planet migration in adiabatic disks differs signific...
In order to understand the extended massive tidal tails of the globular cluster Pal5, its very low m...
A gas giant planet which survives the giant branch stages of evolution at a distance of many au and ...