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On the time evolution of the <i>M</i>d−<i>M</i>⋆ and <i>Ṁ–M⋆</i> correlations for protoplanetary discs: the viscous time-scale increases with stellar mass

Alice Somigliana, Claudia Toci, Giovanni Rosotti, Giuseppe Lodato, Marco Tazzari, C. F. Manara, L. Testi, Federico Lepri

2022Monthly Notices of the Royal Astronomical Society17 citationsDOIOpen Access PDF

Abstract

ABSTRACT Large surveys of star-forming regions have unveiled power-law correlations between the stellar mass and the disc parameters, such as the disc mass $M_{\mathrm{d}} \!-\! {M_{\star }}$ and the accretion rate $\dot{M} \!-\! {M_{\star }}$. The observed slopes appear to be increasing with time, but the reason behind the establishment of these correlations and their subsequent evolution is still uncertain. We conduct a theoretical analysis of the impact of viscous evolution on power-law initial conditions for a population of protoplanetary discs. We find that, for evolved populations, viscous evolution enforces the two correlations to have the same slope, λm = λacc, and that this limit is uniquely determined by the initial slopes λm, 0 and λacc, 0. We recover the increasing trend claimed from the observations when the difference in the initial values, δ0 = λm, 0−λacc, 0, is larger than 1/2; moreover, we find that this increasing trend is a consequence of a positive correlation between the viscous time-scale and the stellar mass. We also present the results of disc population synthesis numerical simulations, that allow us to introduce a spread and analyse the effect of sampling, which show a good agreement with our analytical predictions. Finally, we perform a preliminary comparison of our numerical results with observational data, which allows us to constrain the parameter space of the initial conditions to λm, 0 ∈ [1.2, 2.1], λacc, 0 ∈ [0.7, 1.5].

Topics & Concepts

PhysicsAstrophysicsAccretion (finance)Star (game theory)Power lawPopulationStellar massScale (ratio)Star formationStarsStatisticsQuantum mechanicsMathematicsSociologyDemographyAstrophysics and Star Formation StudiesMolecular Spectroscopy and StructureStellar, planetary, and galactic studies
On the time evolution of the <i>M</i>d−<i>M</i>⋆ and <i>Ṁ–M⋆</i> correlations for protoplanetary discs: the viscous time-scale increases with stellar mass | Litcius