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We propose a pebble-driven core accretion scenario to explain the formation of giant planets around the late-M dwarfs of $M_{\star}{=}0.1{-}0.2 \ M_{\odot}$. In order to explore the optimal disk conditions for giant planet, we perform…

Earth and Planetary Astrophysics · Physics 2023-11-20 Mengrui Pan , Beibei Liu , Anders Johansen , Masahiro Ogihara , Su Wang , Jianghui Ji , Sharon X. Wang , Fabo Feng , Ignasi Riba

In planetary science, accretion is the process in which solids agglomerate to form larger and larger objects and eventually planets are produced. The initial conditions are a disc of gas and microscopic solid particles, with a total mass of…

Earth and Planetary Astrophysics · Physics 2018-03-20 Alessandro Morbidelli

We study the interaction of a low-mass planet with a protoplanetary disk with a realistic treatment of the energy balance by doing radiation-hydrodynamical simulations. We look at accretion and migration rates and compare them to isothermal…

Astrophysics · Physics 2009-11-13 S. -J. Paardekooper , G. Mellema

The gaseous envelope of an accreting rocky planet becomes hot enough to sublimate silicates and other refractory minerals. For this work, we studied the effect of the resulting envelope enrichment with a heavy vapor species on the…

Earth and Planetary Astrophysics · Physics 2024-02-19 Marie-Luise Steinmeyer , Anders Johansen

We explore the growth of planetary embryos by planetesimal accretion up to and beyond the point where pebble accretion becomes efficient at the so-called Hill-transition mass. Both the transition mass and the characteristic mass of…

Earth and Planetary Astrophysics · Physics 2022-10-19 Sebastian Lorek , Anders Johansen

In the core accretion model of planet formation, envelope cooling regulates the accretion of material and ultimately sets the timescale to form a giant planet. Given the diversity of planet-forming environments, opacity uncertainties, and…

Earth and Planetary Astrophysics · Physics 2023-10-06 Avery Bailey , Jim Stone , Jeffrey Fung

Modeling the formation of cold giant planets around M dwarfs is difficult because their disks may not contain enough solids to form massive cores and because forming giants are expected to migrate inward through disk interactions. It is…

Earth and Planetary Astrophysics · Physics 2025-12-09 Mariana Sanchez , Nienke van der Marel , Michiel Lambrechts , Sijme-Jan Paardekooper , Yamila Miguel

We use SPH simulations with an approximate radiative cooling prescription to model evolution of a massive and large ($\sim 100$ AU) very young protoplanetary disc. We also model dust growth and gas-grain dynamics with a second fluid…

Earth and Planetary Astrophysics · Physics 2015-05-20 Seung-Hoon Cha , Sergei Nayakshin

It is reasonable to assume that the structure of a planet and the interior distribution of its components are determined by its formation history. We thus follow the growth of a planet from a small embryo through its subsequent evolution.…

Earth and Planetary Astrophysics · Physics 2022-08-03 Michael Lozovsky , Dina Prialnik , Morris Podolak

We briefly review the recent numerical works that have been performed to understand the formation of massive stars. After a brief description of the classical works, we review more specifically $i)$ the problem of building stars more…

Astrophysics of Galaxies · Physics 2012-09-11 Patrick Hennebelle , Benoit Commercon

The physics of planet formation is investigated using a population synthesis approach. We develop a simple model for planetary growth including pebble and gas accretion, and orbital migration in an evolving protoplanetary disk. The model is…

Earth and Planetary Astrophysics · Physics 2018-10-10 John Chambers

According to the core-accretion scenario, planets form in protostellar disks through the condensation of dust, coagulation of planetesimals, and emergence of protoplanetary embryos. At a few AU in a minimum mass nebula, embryos' growth is…

Earth and Planetary Astrophysics · Physics 2015-06-23 Xiaojia Zhang , Beibei Liu , Douglas N. C. Lin , Hui Li

Planets with sizes between those of Earth and Neptune divide into two populations: purely rocky bodies whose atmospheres contribute negligibly to their sizes, and larger gas-enveloped planets possessing voluminous and optically thick…

Earth and Planetary Astrophysics · Physics 2015-09-09 Rebekah I. Dawson , Eugene Chiang , Eve J. Lee

Formation models in which terrestrial bodies grow via the pairwise accretion of planetesimals have been reasonably successful at reproducing the general properties of the solar system, including small body populations. However, planetesimal…

Earth and Planetary Astrophysics · Physics 2023-07-20 Spencer C. Wallace , Thomas R. Quinn

At least 30\% of main sequence stars host planets with sizes of between 1 and 4 Earth radii and orbital periods of less than 100 days. We use N-body simulations including a model for gas-assisted pebble accretion and disk--planet tidal…

Planet formation encompasses processes that span a remarkable 40 magnitudes in mass, ranging from collisions between micron-sized grains inherited from the ISM to the accretion of gas by giant planets. The planet formation process takes…

Earth and Planetary Astrophysics · Physics 2024-12-18 Chris Ormel

We have performed fully 3D simulations of the collapse of molecular cloud cores which obey the logatropic equation of state. By following the collapse of these cores from states of near hydrodynamic equilibrium, we are able to produce…

Astrophysics · Physics 2007-05-23 M. A. Reid , R. E. Pudritz , J. Wadsley

Recent observations of protoplanetary disks have revealed ring-like structures that can be associated to pressure maxima. Pressure maxima are known to be dust collectors and planet migration traps. Most of planet formation works are based…

Earth and Planetary Astrophysics · Physics 2020-10-14 O. M. Guilera , Zs. Sándor , M. P. Ronco , J. Venturini , M. M. Miller Bertolami

We present a model in which planetesimal disks are built from the combination of planetesimal formation and accretion of radially drifting pebbles onto existing planetesimals. In this model, the rate of accretion of pebbles onto…

Earth and Planetary Astrophysics · Physics 2015-08-19 John Moriarty , Debra Fischer

Around our Sun, terrestrial planets did not grow beyond Earth in mass, while super-Earths are found to orbit approximately every other solar-like star. It remains unclear what divides these super-Earth systems from those that form…

Earth and Planetary Astrophysics · Physics 2025-08-13 Claudia Danti , Michiel Lambrechts , Sebastian Lorek