On the accumulation of solid bodies in global turbulent protoplanetary disc models

Sébastien Fromang; Richard P. Nelson

doi:10.1111/j.1745-3933.2005.00109.x

On the accumulation of solid bodies in global turbulent protoplanetary disc models

Sébastien Fromang
, Richard P. Nelson

Queen Mary University of London

Research output: Contribution to journal › Letter › peer-review

Abstract

We study the migration of solid bodies in turbulent protoplanetary accretion discs by means of global magnetohydrodynamic simulations. The bodies range in size from 5 cm up to 1 m, and so include objects whose migration is expected to be the most rapid due to gas drag interaction with the disc. As they drift inward through the disc, some of them are trapped in regions where gas pressure maxima are created by long-lived anticyclonic vortices. This accumulation is very efficient, locally increasing the dust-to-gas ratio by a factor >100 in some cases. We discuss the possible implications of this result for theories of planet formation.

Original language	English
Pages (from-to)	L81-L85
Journal	Monthly Notices of the Royal Astronomical Society: Letters
Volume	364
Issue number	1
DOIs	https://doi.org/10.1111/j.1745-3933.2005.00109.x
Publication status	Published - 1 Nov 2005
Externally published	Yes

Keywords

Accretion, accretion discs
MHD
Methods: numerical
Planets and satellites: formation

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10.1111/j.1745-3933.2005.00109.x

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abstract = "We study the migration of solid bodies in turbulent protoplanetary accretion discs by means of global magnetohydrodynamic simulations. The bodies range in size from 5 cm up to 1 m, and so include objects whose migration is expected to be the most rapid due to gas drag interaction with the disc. As they drift inward through the disc, some of them are trapped in regions where gas pressure maxima are created by long-lived anticyclonic vortices. This accumulation is very efficient, locally increasing the dust-to-gas ratio by a factor >100 in some cases. We discuss the possible implications of this result for theories of planet formation.",

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T1 - On the accumulation of solid bodies in global turbulent protoplanetary disc models

AU - Fromang, Sébastien

AU - Nelson, Richard P.

PY - 2005/11/1

Y1 - 2005/11/1

N2 - We study the migration of solid bodies in turbulent protoplanetary accretion discs by means of global magnetohydrodynamic simulations. The bodies range in size from 5 cm up to 1 m, and so include objects whose migration is expected to be the most rapid due to gas drag interaction with the disc. As they drift inward through the disc, some of them are trapped in regions where gas pressure maxima are created by long-lived anticyclonic vortices. This accumulation is very efficient, locally increasing the dust-to-gas ratio by a factor >100 in some cases. We discuss the possible implications of this result for theories of planet formation.

AB - We study the migration of solid bodies in turbulent protoplanetary accretion discs by means of global magnetohydrodynamic simulations. The bodies range in size from 5 cm up to 1 m, and so include objects whose migration is expected to be the most rapid due to gas drag interaction with the disc. As they drift inward through the disc, some of them are trapped in regions where gas pressure maxima are created by long-lived anticyclonic vortices. This accumulation is very efficient, locally increasing the dust-to-gas ratio by a factor >100 in some cases. We discuss the possible implications of this result for theories of planet formation.

KW - Accretion, accretion discs

KW - MHD

KW - Methods: numerical

KW - Planets and satellites: formation

UR - https://www.scopus.com/pages/publications/32044462434

U2 - 10.1111/j.1745-3933.2005.00109.x

DO - 10.1111/j.1745-3933.2005.00109.x

M3 - Letter

AN - SCOPUS:32044462434

SN - 1745-3925

VL - 364

SP - L81-L85

JO - Monthly Notices of the Royal Astronomical Society: Letters

JF - Monthly Notices of the Royal Astronomical Society: Letters

IS - 1

ER -

On the accumulation of solid bodies in global turbulent protoplanetary disc models

Abstract

Keywords

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