Data di Pubblicazione:
2021
Citazione:
On the secular evolution of the ratio between gas and dust radii in protoplanetary discs / C. Toci, G. Rosotti, G. Lodato, L. Testi, L. Trapman. - In: MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY. - ISSN 0035-8711. - 507:1(2021 Oct), pp. 818-833. [10.1093/mnras/stab2112]
Abstract:
A key problem in protoplanetary disc evolution is understanding the efficiency of dust radial drift. This process makes the
observed dust disc sizes shrink on relatively short time-scales, implying that discs started much larger than what we see now. In
this paper, we use an independent constraint, the gas radius (as probed by CO rotational emission), to test disc evolution models.
In particular, we consider the ratio between the dust and gas radius, RCO/Rdust. We model the time evolution of protoplanetary
discs under the influence of viscous evolution, grain growth, and radial drift. Then, using the radiative transfer code RADMC
with approximate chemistry, we compute the dust and gas radii of the models and investigate how RCO/Rdust evolves. Our main
finding is that, for a broad range of values of disc mass, initial radius, and viscosity, RCO/Rdust becomes large (>5) after only a
short time (<1 Myr) due to radial drift. This is at odds with measurements in young star-forming regions such as Lupus, which
find much smaller values, implying that dust radial drift is too efficient in these models. Substructures, commonly invoked to
stop radial drift in large, bright discs, must then be present, although currently unresolved, in most discs
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
accretion; accretion discs - planets and satellites; formation - protoplanetary discs;
Elenco autori:
C. Toci, G. Rosotti, G. Lodato, L. Testi, L. Trapman
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