2008
DOI: 10.1086/591239
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Toward Planetesimals: Dense Chondrule Clumps in the Protoplanetary Nebula

Abstract: 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 parent bodies. We call this primary accretion. The scenario draws on elements of previous work, and introduces a new critical threshold for planetesimal formation. We presume the nebula to be weakly turbulent, which leads to dense concentrations of aerodynamically size-sorte… Show more

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Cited by 362 publications
(420 citation statements)
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“…The clumps are held together by self-gravity if the gravitational Weber number (in analogy with the surface tension case) is less than a critical value, close to 1. The gravitational Weber number is defined as the ratio of the drag to self-gravitational accelerations Cuzzi et al (2008) further point that in numerical models, artificial viscosity can largely exaggerate the disrupting effect of the ram pressure. This happens because, as the clumps are small, they are deeply within the viscous range of the grid, whereas in the real solar nebula the dissipation happens at much smaller scales.…”
Section: Erosion?mentioning
confidence: 99%
See 1 more Smart Citation
“…The clumps are held together by self-gravity if the gravitational Weber number (in analogy with the surface tension case) is less than a critical value, close to 1. The gravitational Weber number is defined as the ratio of the drag to self-gravitational accelerations Cuzzi et al (2008) further point that in numerical models, artificial viscosity can largely exaggerate the disrupting effect of the ram pressure. This happens because, as the clumps are small, they are deeply within the viscous range of the grid, whereas in the real solar nebula the dissipation happens at much smaller scales.…”
Section: Erosion?mentioning
confidence: 99%
“…In Sect. 4 we analyze the formation and evolution of the protoplanetary embryos, focusing on stability against erosion (Paraskov et al 2006;Cuzzi et al 2008) and tides from the gas, which we identify as an important disrupting agent. In Sect.…”
Section: Introductionmentioning
confidence: 99%
“…The well known centimeter and meter barriers (Weidenschilling 1977;Morbidelli et al 2008) along with the fragility of 1 km planetesimals (Leinhardt et al 2009;Nelson & Gressel 2010) will perturb this power law, especially in the case of the centimeter barrier, which can result in mass "piling up" in smaller sizes. Also, if planetesimals are not constructed via dust coagulation, then pathways for the formation of gravitational instability, such as turbulent concentration and streaming instability (e.g., Johansen et al 2006;Cuzzi et al 2008;Bai & Stone 2010;Gressel et al 2011), can circumvent the growth of intermediate-sized objects completely such that Equation (7) no longer holds, even as an approximation.…”
Section: Discussionmentioning
confidence: 99%
“…How planetesimals themselves form is a different topic. Recent popular models hypothesize that planetesimals could form from a population of pebble-sized particles (Youdin and Goodman 2005;Johansen et al 2007;Cuzzi et al 2008). Planetesimal formation and pebble accretion can therefore operate sequentially.…”
Section: Misconceptions About Pebble Accretionmentioning
confidence: 99%