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Planet gaps in the dust layer of 3D protoplanetary disks

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posted on 2024-07-26, 13:45 authored by L. Fouchet, J.-F. Gonzalez, Sarah MaddisonSarah Maddison
Context. While sub-micron- and micron-sized dust grains are generally well mixed with the gas phase in protoplanetary disks, larger grains will be partially decoupled and as a consequence have a different distribution from that of the gas. This has ramifications for predictions of the observability of protoplanetary disks, for which gas-only studies will provide an inaccurate picture. Specifically, criteria for gap opening in the presence of a planet have generally been studied for the gas phase, whereas the situation can be quite different in the dust layer once grains reach mm sizes, which is what will be observed by ALMA. Aims.We aim to investigate the formation and structure of a planetary gap in the dust layer of a protoplanetary disk with an embedded planet. Methods.We perform 3D, gas+dust SPH simulations of a protoplanetary disk with a planet on a fixed circular orbit at 40 AU to study the evolution of both the gas and dust distributions and densities in the disk. We run a series of simulations in which the planet mass and the dust grain size varies. Results. We show that the gap in the dust layer is more striking than in the gas phase and that it is deeper and wider for more massive planets as well as for larger grains. For a massive enough planet, we note that cm-sized grains remain inside the gap in corotation and that their population in the outer disk shows an asymmetric structure, a signature of disk-planet interactions even for a circular planetary orbit, which should be observable with ALMA.

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ISSN

0004-6361

Journal title

Astronomy and Astrophysics

Volume

518

Issue

13

Article number

article no. A16

Pagination

10 pp

Publisher

EDP Sciences

Copyright statement

Copyright © 2010 ESO. The published version is reproduced in accordance with the copyright policy of the publisher.

Language

eng

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