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Secular evolution of MHD wind-driven discs: analytical solutions in the expanded α-framework

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posted on 2022-04-12, 10:00 authored by Benoît Tabone, Giovanni P Rosotti, Alexander J Cridland, Philip J Armitage, Giuseppe Lodato

The evolution of protoplanetary discs and the related process of planet formation is regulated by angular momentum transport and mass-loss processes. Over the past decade, the paradigm of viscosity has been challenged and MHD disc winds appear as a compelling scenario to account for disc accretion. In this work, we aim to construct the equivalent of the widely used analytical description of viscous evolution for the MHD wind case. The transport of angular momentum and mass induced by the wind is parametrized by an α-like parameter and by the magnetic lever arm parameter λ. Extensions of the paradigmatic Lynden-Bell and Pringle similarity solutions to the wind case are presented. We show that wind-driven accretion leads to a steeper decrease in the disc mass and accretion rate than in viscous models due to the absence of disc spreading. If the decline of the magnetic field strength is slower than that of the gas surface density, the disc is dispersed after a finite time. The evolution of the disc in the M˙∗−MD plane is sensitive to the wind and turbulence parameters. A disc population evolving under the action of winds can exhibit a correlation between M˙∗ and MD depending on the initial conditions. The simplified framework proposed in this work opens to a new avenue to test the effectiveness of wind-driven accretion from the observed disc demographics and constitutes an important step to include wind-driven accretion in planet population synthesis models.

History

Citation

Monthly Notices of the Royal Astronomical Society, Volume 512, Issue 2, May 2022, Pages 2290–2309, https://doi.org/10.1093/mnras/stab3442

Author affiliation

Department of Physics and Astronomy, University of Leicester

Version

  • AM (Accepted Manuscript)

Published in

Monthly Notices of the Royal Astronomical Society

Volume

512

Issue

2

Pagination

2290–2309

Publisher

Oxford University Press (OUP)

issn

0035-8711

eissn

1365-2966

Acceptance date

2021-11-15

Copyright date

2021

Available date

2022-04-12

Language

en

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