http://arxiv.org/abs/1907.03846
The impact of stellar multiplicity on the evolution of planet-forming disks is still the subject of debate. Here we present and analyze disk structures around 10 multiple stellar systems that were included in an unbiased, high spatial resolution survey of 32 protoplanetary disks in the Taurus star-forming region with ALMA. At the unprecedented spatial resolution of ~0.12″ we detect and spatially resolve the disks around all primary stars, as well as those around eight secondary and one tertiary stars. The dust radii of disks around multiple stellar systems are smaller than those around single stars in the same stellar mass range and in the same region. The disks in multiple stellar systems have also a steeper decay of the mm-continuum emission at the outer radius than disks around single stars, suggestive of the impact of tidal truncation on the shape of the disks in multiple systems. However, the observed ratio between the dust disk radii and the observed separation of the stars in the multiple systems is consistent with analytic predictions of the effect of tidal truncation only if the eccentricities of the binaries are rather high (typically >0.5), or if the observed dust radii are a factor of two smaller than the gas radii, as is typical for isolated systems. Similar high resolution studies targeting the gaseous emission from disks in multiple stellar systems are required to resolve this question.
C. Manara, M. Tazzari, F. Long, et. al.
Wed, 10 Jul 19
42/53
Comments: Accepted on Astronomy & Astrophysics; 15 pages plus appendix
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