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Related papers: Making the Solar System

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I examine the standard model of planet formation, including pebble accretion, using numerical simulations. Planetary embryos large enough to become giant planets do not form beyond the ice line within a typical disk lifetime unless icy…

Earth and Planetary Astrophysics · Physics 2016-07-06 J. E. Chambers

The dominant accretion process leading to the formation of the terrestrial planets of the Solar System is a subject of intense scientific debate. Two radically different scenarios have been proposed. The classic scenario starts from a disk…

Earth and Planetary Astrophysics · Physics 2024-11-15 Alessandro Morbidelli , Thorsten Kleine , Francis Nimmo

The accretion of pebbles on planetary cores has been widely studied in recent years and is found to be a highly effective mechanism for planetary growth. While most studies assume planetary cores as an initial condition in their simulation,…

Earth and Planetary Astrophysics · Physics 2021-02-10 Oliver Voelkel , Rogerio Deienno , Katherine Kretke , Hubert Klahr

Prevailing $N$-body planet formation models typically start with lunar-mass embryos and show a general trend of rapid migration of massive planetary cores to the inner Solar System in the absence of a migration trap. This setup cannot…

Earth and Planetary Astrophysics · Physics 2024-03-27 Tommy Chi Ho Lau , Man Hoi Lee , Ramon Brasser , Soko Matsumura

In models of planetary accretion, pebbles form by dust coagulation and rapidly migrate toward the central star. Planetesimals may continuously form from pebbles over the age of the protoplanetary disk by yet uncertain mechanisms. Meanwhile,…

Earth and Planetary Astrophysics · Physics 2018-04-17 Ryuji Morishima

Context. The classical "planetesimal" accretion scenario for the formation of planets has recently evolved with the idea that "pebbles", centimeter- to meter-sized icy grains migrating in protoplanetary disks, can control planetesimal…

Earth and Planetary Astrophysics · Physics 2016-06-22 Shigeru Ida , Tristan Guillot , Alessandro Morbidelli

Planet formation models begin with proto-embryos and planetesimals already fully formed, missing out a crucial step, the formation of planetesimals/proto-embryos. In this work, we include prescriptions for planetesimal and proto-embryo…

Earth and Planetary Astrophysics · Physics 2021-07-14 Gavin A. L. Coleman

Mass-independent isotopic anomalies of carbonaceous and non-carbonaceous meteorites show a clear dichotomy suggesting an efficient separation of the inner and outer solar system. Observations show that ring-like structures in the…

Earth and Planetary Astrophysics · Physics 2021-07-14 André Izidoro , Bertram Bitsch , Rajdeep Dasgupta

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

Super-Earths are found in tighter orbits than the Earth's around more than one third of main sequence stars. It has been proposed that super-Earths are scaled-up terrestrial planets that formed similarly, through mutual accretion of…

Earth and Planetary Astrophysics · Physics 2019-07-10 Michiel Lambrechts , Alessandro Morbidelli , Seth A. Jacobson , Anders Johansen , Bertram Bitsch , Andre Izidoro , Sean N. Raymond

Our understanding of the process of terrestrial planet formation has grown markedly over the past 20 years, yet key questions remain. This review begins by first addressing the critical, earliest stage of dust coagulation and concentration.…

Earth and Planetary Astrophysics · Physics 2024-11-07 Matthew S. Clement , Andre Izidoro , Sean N. Raymond , Rogerio Deienno

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

Models of planetary core growth by either planetesimal or pebble accretion are traditionally disconnected from the models of dust evolution and formation of the first gravitationally-bound planetesimals. The state-of-the-art models…

Earth and Planetary Astrophysics · Physics 2022-12-28 Tommy Chi Ho Lau , Joanna Drążkowska , Sebastian M. Stammler , Tilman Birnstiel , Cornelis P. Dullemond

The formation of planets depends on the underlying protoplanetary disc structure, which influences both the accretion and migration rates of embedded planets. The disc itself evolves on time-scales of several Myr during which both…

Earth and Planetary Astrophysics · Physics 2018-02-07 Bertram Bitsch , Michiel Lambrechts , Anders Johansen

"Pebble snow" describes a planet formation mechanism where icy pebbles in the outer disk reach inner planet embryos as the water ice line evolves inward. We model the effects pebble snow has on sculpting planetary system architectures by…

Earth and Planetary Astrophysics · Physics 2025-09-18 Sean McCloat , Gijs Mulders , Sherry Fieber-Beyer

Context. The localized formation of planetesimals can be triggered with the help of streaming instability when the local pebble density is high. This can happen at various locations in the disk leading to the formation of local planetesimal…

Earth and Planetary Astrophysics · Physics 2025-02-05 Nicolas Kaufmann , Octavio M. Guilera , Yann Alibert , Irina L. San Sebastián

Pebbles of millimeter sizes are abundant in protoplanetary discs around young stars. Chondrules inside primitive meteorites - formed by melting of dust aggregate pebbles or in impacts between planetesimals - have similar sizes. The role of…

Earth and Planetary Astrophysics · Physics 2021-02-18 Anders Johansen , Thomas Ronnet , Martin Bizzarro , Martin Schiller , Michiel Lambrechts , Åke Nordlund , Helmut Lammer

Accumulation of dust and ice particles into planetesimals is an important step in the planet formation process. Planetesimals are the seeds of both terrestrial planets and the solid cores of gas and ice giants forming by core accretion.…

Earth and Planetary Astrophysics · Physics 2015-06-18 Anders Johansen , Jürgen Blum , Hidekazu Tanaka , Chris Ormel , Martin Bizzarro , Hans Rickman

If we want to understand planetesimal formation, the only data set we have is our own Solar System. It is particularly interesting as it is so far the only planetary system we know of that developed life. Understanding the conditions under…

Earth and Planetary Astrophysics · Physics 2022-11-23 Christian T. Lenz , Hubert Klahr , Tilman Birnstiel , Katherine Kretke , Sebastian Stammler
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