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A Triple-Star System With A Misaligned And Warped Circumstellar Disk Shaped By Disk Tearing
Journal
Science
Date Issued
2020-09-04
Author(s)
Stefan Kraus
Alexander Kreplin
Alison K. Young
Matthew R. Bate
John D. Monnier
Tim J. Harries
Henning Avenhaus
Jacques Kluska
Anna S. E. Laws
Evan A. Rich
Matthew Willson
Alicia N. Aarnio
Fred C. Adams
Sean M. Andrews
Narsireddy Anugu
Jaehan Bae
Theo ten Brummelaar
Nuria Calvet
Claire L. Davies
Jacob Ennis
Catherine Espaillat
Tyler Gardner
Lee Hartmann
Sasha Hinkley
Aaron Labdon
Cyprien Lanthermann
Jean-Baptiste LeBouquin
Gail H. Schaefer
Benjamin R. Setterholm
David Wilner
Zhaohuan Zhu
WoS ID
WOS:000567525400050
Abstract
Young stars are surrounded by a circumstellar disk of gas and dust, within which planet formation can occur. Gravitational forces in multiple star systems can disrupt the disk. Theoretical models predict that if the disk is misaligned with the orbital plane of the stars, the disk should warp and break into precessing rings, a phenomenon known as disk tearing. We present observations of the triple-star system GW Orionis, finding evidence for disk tearing. Our images show an eccentric ring that is misaligned with the orbital planes and the outer disk. The ring casts shadows on a strongly warped intermediate region of the disk. If planets can form within the warped disk, disk tearing could provide a mechanism for forming wide-separation planets on oblique orbits.
OCDE Subjects
Quartile (Date Issued)
Q1
License
acceso abierto