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相关论文: Planetesimal Formation with Particle Feedback

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Planets are built from planetesimals: solids larger than a kilometer which grow by colliding pairwise. Planetesimals themselves are unlikely to form by two-body collisions; sub-km objects have gravitational fields individually too weak, and…

地球与行星天体物理 · 物理学 2015-05-14 E. Chiang , A. Youdin

The initial stages of planet formation in circumstellar gas discs proceed via dust grains that collide and build up larger and larger bodies (Safronov 1969). How this process continues from metre-sized boulders to kilometre-scale…

We investigate the formation of planetesimals via the gravitational instability of solids that have settled to the midplane of a circumstellar disk. Vertical shear between the gas and a subdisk of solids induces turbulent mixing which…

天体物理学 · 物理学 2008-11-26 Andrew N. Youdin , Frank H. Shu

Planetary systems form in gas-dust protoplanetary discs via the growth of solid bodies. In this paper, we show that the most intriguing stage of such growth --- namely, the transformation of 1-10 m boulders into kilometre-sized…

地球与行星天体物理 · 物理学 2015-06-11 Valeriy N. Snytnikov , Olga P. Stoyanovskaya

The origin of planetesimals ($\sim$100 km planet building blocks) has confounded astronomers for decades, as numerous growth barriers appear to impede their formation. In a recent paper we proposed a novel interaction where the streaming…

地球与行星天体物理 · 物理学 2025-09-03 Daniel Carrera , Linn E. J. Eriksson , Jeonghoon Lim , Wladimir Lyra , Jacob B. Simon

We study how the interaction between the streaming instability and intrinsic gas-phase turbulence affects planetesimal formation via gravitational collapse in protoplanetary disks. Turbulence impedes the formation of particle clumps by…

地球与行星天体物理 · 物理学 2020-12-09 Daniel A. Gole , Jacob B. Simon , Rixin Li , Andrew N. Youdin , Philip J. Armitage

This chapter highlights the properties of turbulence and meso-scale flow structures in protoplanetary disks and their role in the planet formation process. Here we focus on the formation of planetesimals from a gravitational collapse of a…

地球与行星天体物理 · 物理学 2018-12-05 Hubert Klahr , Thomas Pfeil , Andreas Schreiber

One of the most important open questions in planet formation is how dust grains in a protoplanetary disk manage to overcome growth barriers and form the $\sim$100km planet building blocks that we call planetesimals. There appears to be a…

地球与行星天体物理 · 物理学 2025-04-30 Daniel Carrera , Jeonghoon Lim , Linn E. J. Eriksson , Wladimir Lyra , Jacob B. Simon

This pedagogical review covers an unsolved problem in the theory of protoplanetary disks: the growth of dust grains into planetesimals, solids at least a kilometer in size. I summarize timescale constraints imposed on planetesimal formation…

天体物理学 · 物理学 2015-05-13 Andrew Youdin

We study the gravitational instability (GI) of small solids in a gas disk as a mechanism to form planetesimals. Dissipation from gas drag introduces secular GI, which proceeds even when standard GI criteria for a critical density or…

地球与行星天体物理 · 物理学 2015-05-27 Andrew N. Youdin

Solid particles in protoplanetary disks that are sufficiently super-solar in metallicity overcome turbulence generated by vertical shear to gravitationally condense into planetesimals. Super-solar metallicities result if solid particles…

天体物理学 · 物理学 2009-11-10 Andrew N. Youdin , Eugene I. Chiang

Planetesimal formation models often invoke the gravitational collapse of pebble clouds to overcome various barriers to grain growth and propose processes to concentrate particles sufficiently to trigger this collapse. On the other hand, the…

地球与行星天体物理 · 物理学 2024-12-11 P. Segretain , H. Méheut , M. Moreira , G. Lesur , C. Robert , J. Mauxion

Planetesimals are believed to form by the gravitational collapse of aerodynamically concentrated clumps of pebbles. Many properties of the objects in the cold classical Kuiper belt -- such as binarity, rotation, and size distribution -- are…

地球与行星天体物理 · 物理学 2024-01-11 Sebastian Lorek , Anders Johansen

The formation mechanism of planetesimals in protoplanetary discs is hotly debated. Currently, the favoured model involves the accumulation of meter-sized objects within a turbulent disc, followed by a phase of gravitational instability. At…

地球与行星天体物理 · 物理学 2010-03-16 Hanno Rein , Geoffroy Lesur , Zoe M. Leinhardt

Planetesimals are compact astrophysical objects roughly 1-1000 km in size, massive enough to be held together by gravity. They can grow by accreting material to become full-size planets. Planetesimals themselves are thought to form by…

地球与行星天体物理 · 物理学 2020-11-16 David Nesvorny , Rixin Li , Jacob B. Simon , Andrew N. Youdin , Derek C. Richardson , Raphael Marschall , William M. Grundy

The mechanism through which meter-sized boulders grow to km-sized planetesimals in protoplanetary discs is a subject of active research, since it is critical for planet formation. To avoid spiralling into the protostar due to aerodynamic…

地球与行星天体物理 · 物理学 2015-09-30 P. G. Gibbons , G. R. Mamatsashvili , W. K. M. Rice

Some scenarios for planetesimal formation go through a phase of collapse of gravitationally bound clouds of mm-cm-sized pebbles. Such clouds can form for example through the streaming instability in protoplanetary disks. We model the…

地球与行星天体物理 · 物理学 2017-01-25 Karl Wahlberg Jansson , Anders Johansen , Mohtashim Bukhari Syed , Jürgen Blum

The consistency of planet formation models suffers from the disconnection between the regime of small and large bodies. This is primarily caused by so-called growth barriers: the direct growth of larger bodies is halted at centimetre-sized…

地球与行星天体物理 · 物理学 2016-10-19 Joanna Drazkowska , Yann Alibert , Ben Moore

The debate over whether kilometer-sized solids, or planetesimals, assemble by collision-induced chemical sticking or by gravity-driven unstable modes remains unsettled. In light of recent work showing that gravitational growth can occur…

天体物理学 · 物理学 2007-05-23 Andrew N. Youdin

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.…

地球与行星天体物理 · 物理学 2015-06-18 Anders Johansen , Jürgen Blum , Hidekazu Tanaka , Chris Ormel , Martin Bizzarro , Hans Rickman
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