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Turbulent Dust-trapping Rings as Efficient Sites for Planetesimal Formation

Abstract : Recent observations of protoplanetary disks (PPDs) at submillimeter wavelengths have revealed the ubiquity of annular substructures that are indicative of pebble-sized dust particles trapped in turbulent ringlike gas pressure bumps. This major paradigm shift also challenges the leading theory of planetesimal formation from such pebbles by means of the streaming instability, which operates in a pressure gradient and can be suppressed by turbulence. Here, we conduct 3D local shearing box nonideal magnetohydrodynamic simulations of dust trapping in enforced gas pressure bumps, including dust backreaction. Under a moderate level of turbulence generated by the magnetorotational instability with ambipolar diffusion, which is suitable for outer disk conditions, we achieve quasi-steady states of dust trapping balanced by turbulent diffusion. We find strong dust clumping in all simulations near the gas pressure maxima, reaching a maximum density well above the threshold for triggering gravitational collapse to form planetesimals. A strong pressure bump concentrates dust particles toward the bump's center. With a weak pressure bump, dust can also concentrate in secondary filaments off the bump's center, due to dust backreaction, but strong clumping still occurs mainly in the primary ring around the bump's center. Our results reveal dust-trapping rings to be robust locations for planetesimal formation in outer PPDs, while they may possess diverse observational properties.
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Submitted on : Tuesday, November 15, 2022 - 5:01:56 PM
Last modification on : Wednesday, November 16, 2022 - 3:45:40 AM

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Distributed under a Creative Commons Attribution 4.0 International License

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Ziyan Xu, Xue-Ning Bai. Turbulent Dust-trapping Rings as Efficient Sites for Planetesimal Formation. The Astrophysical journal letters, 2022, 937, ⟨10.3847/2041-8213/ac8dff⟩. ⟨insu-03854058⟩

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