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We outline a scenario which traces a direct path from freely-floating nebula particles to the first 10-100km-sized bodies in the terrestrial planet region, producing planetesimals which have properties matching those of primitive meteorite…

Astrophysics · Physics 2009-06-23 Jeffrey N. Cuzzi , Robert C. Hogan , Karim Shariff

Chondrules are millimeter-sized spherules that dominate primitive meteorites (chondrites) originating from the asteroid belt. The incorporation of chondrules into asteroidal bodies must be an important step in planet formation, but the…

Earth and Planetary Astrophysics · Physics 2015-03-26 Anders Johansen , Mordecai-Mark Mac Low , Pedro Lacerda , Martin Bizzarro

How big were the first planetesimals? We attempt to answer this question by conducting coagulation simulations in which the planetesimals grow by mutual collisions and form larger bodies and planetary embryos. The size frequency…

Earth and Planetary Astrophysics · Physics 2015-05-13 Alessandro Morbidelli , William Bottke , David Nesvorny , Harold F. Levison

Large main-belt asteroids (diameter $D \gtrsim 120\ \mathrm{km}$) exhibit a surface composition gradient as a function of heliocentric distance, ranging from anhydrous bodies to those rich in hydrated and, possibly, ammoniated materials.…

Earth and Planetary Astrophysics · Physics 2026-02-23 Jinfei Yu , Hiroyuki Kurokawa , Tetsuo Taki

The size distribution of asteroids and Kuiper belt objects in the solar system is difficult to reconcile with a bottom-up formation scenario due to the observed scarcity of objects smaller than $\sim$100 km in size. Instead, planetesimals…

Earth and Planetary Astrophysics · Physics 2015-06-24 Daniel Carrera , Anders Johansen , Melvyn B. Davies

Asteroids and meteorites provide key evidence on the formation of planetesimals in the Solar System. Asteroids are traditionally thought to form in a bottom-up process by coagulation within a population of initially km-scale planetesimals.…

Earth and Planetary Astrophysics · Physics 2016-08-31 Anders Johansen , Emmanuel Jacquet , Jeffrey N. Cuzzi , Alessandro Morbidelli , Matthieu Gounelle

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

Although petrologic, chemical and isotopic studies of ordinary chondrites and meteorites in general have largely helped establish a chronology of the earliest events of planetesimal formation and their evolution, there are several questions…

Earth and Planetary Astrophysics · Physics 2015-06-19 P. Vernazza , B. Zanda , R. P. Binzel , T. Hiroi , F. E. DeMeo , M. Birlan , R. Hewins , L. Ricci , P. Barge , M. Lockhart

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

The size distribution of TNOs in the Kuiper Belt provides crucial insights into the formation and evolution of the outer Solar System. Recent observational surveys, including OSSOS++, have revealed that dynamically cold and hot TNO…

Earth and Planetary Astrophysics · Physics 2025-03-26 Chris W. Ormel , Yukun Huang

The formation of planetary cores must proceed rapidly in order for the giant planets to accrete their gaseous envelopes before the dissipation of the protoplanetary gas disc (<3 Myr). In orbits beyond 10 AU, direct accumulation of…

Earth and Planetary Astrophysics · Physics 2016-04-05 Michiel Lambrechts , Anders Johansen

This paper reviews coagulation models for planet formation in the Kuiper Belt, emphasizing links to recent observations of our and other solar systems. At heliocentric distances of 35-50 AU, single annulus and multiannulus planetesimal…

Astrophysics · Physics 2009-11-07 Scott J. Kenyon

In the core accretion model, planetesimals grow by mutual collisions and engulfing millimeter-to-centimeter particles, i.e., pebbles. Pebble accretion can significantly increase the accretion efficiency and help explain the presence of…

Earth and Planetary Astrophysics · Physics 2023-05-16 Tong Fang , Hui Zhang , Shangfei Liu , Beibei Liu , Hongping Deng

Pebble accretion is a new mechanism to quickly grow the cores of planets. In pebble accretion, gravity and gas drag conspire to yield large collisional cross sections for small particles in protoplanetary disks. However, before pebble…

Earth and Planetary Astrophysics · Physics 2016-02-03 Rico G. Visser , Chris W. Ormel

Chondritic meteorites provide valuable opportunities to investigate the origins of the solar system. We explore impact jetting as a mechanism of chondrule formation and subsequent pebble accretion as a mechanism of accreting chondrules onto…

Earth and Planetary Astrophysics · Physics 2016-03-23 Yasuhiro Hasegawa , Neal J. Turner , Joseph Masiero , Shigeru Wakita , Yuji Matsumoto , Shoichi Oshino

We describe planetesimal accretion calculations in the Kuiper Belt. Our evolution code simulates planetesimal growth in a single annulus and includes velocity evolution but not fragmentation. Test results match analytic solutions and…

Astrophysics · Physics 2016-08-30 Scott J. Kenyon , Jane X. Luu

The formation of a solar system is believed to have followed a multi-stage process around a protostar. Whipple first noted that planetesimal growth by particle agglomeration is strongly influenced by gas drag; there is a "bottleneck" at the…

Earth and Planetary Astrophysics · Physics 2015-03-13 J. S. Wettlaufer

We describe new planetesimal accretion calculations in the Kuiper Belt that include fragmentation and velocity evolution. All models produce two power law cumulative size distributions, N_C propto r^{-q}, with q = 2.5 for radii less than…

Astrophysics · Physics 2009-10-31 Scott J. Kenyon , Jane X. Luu

The sticking of micron sized dust particles due to surface forces in circumstellar disks is the first stage in the production of asteroids and planets. The key ingredients that drive this process are the relative velocity between the dust…

Earth and Planetary Astrophysics · Physics 2015-05-14 A. Zsom , C. W. Ormel , C. Guettler , J. Blum , C. P. Dullemond

Core Accretion, the most widely accepted scenario for planet formation, postulates existence of km-sized solid bodies, called planetesimals, arranged in a razor-thin disc in the earliest phases of planet formation. In the Tidal Downsizing…

Earth and Planetary Astrophysics · Physics 2015-06-04 Sergei Nayakshin , Seung-Hoon Cha
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