Streaming Instabilities in Accreting and Magnetized Laminar Protoplanetary Disks

The streaming instability (SI) is one of the most promising pathways to the formation of planetesimals from pebbles. Understanding how this instability operates under realistic conditions expected in protoplanetary disks (PPDs) is therefore crucial to assess the efficiency of planet formation. Conte...

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Published inThe Astrophysical journal Vol. 926; no. 1; pp. 14 - 37
Main Authors Lin, Min-Kai, Hsu, Chun-Yen
Format Journal Article
LanguageEnglish
Published Philadelphia The American Astronomical Society 01.02.2022
IOP Publishing
Subjects
Accretion disks
Alfven waves
Astrophysical fluid dynamics
Astrophysics
Drift
Dust
Hydrodynamics
Instability
Magnetic fields
Magnetohydrodynamics
Perturbation
Planet formation
Pressure gradients
Protoplanetary disks
Radial drift
Online AccessGet full text
ISSN0004-637X
1538-4357
DOI10.3847/1538-4357/ac3bb9

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Abstract The streaming instability (SI) is one of the most promising pathways to the formation of planetesimals from pebbles. Understanding how this instability operates under realistic conditions expected in protoplanetary disks (PPDs) is therefore crucial to assess the efficiency of planet formation. Contemporary models of PPDs show that magnetic fields are key to driving gas accretion through large-scale, laminar magnetic stresses. However, the effect of such magnetic fields on the SI has not been examined in detail. To this end, we study the stability of dusty, magneftized gas in a protoplanetary disk. We find the SI can be enhanced by passive magnetic torques and even persist in the absence of a global radial pressure gradient. In this case, instability is attributed to the azimuthal drift between dust and gas, unlike the classical SI, which is driven by radial drift. This suggests that the SI can remain effective inside dust-trapping pressure bumps in accreting disks. When a live vertical field is considered, we find the magneto-rotational instability can be damped by dust feedback, while the classic SI can be stabilized by magnetic perturbations. We also find that Alfvén waves can be destabilized by dust–gas drift, but this instability requires nearly ideal conditions. We discuss the possible implications of these results for dust dynamics and planetesimal formation in PPDs.
AbstractList The streaming instability (SI) is one of the most promising pathways to the formation of planetesimals from pebbles. Understanding how this instability operates under realistic conditions expected in protoplanetary disks (PPDs) is therefore crucial to assess the efficiency of planet formation. Contemporary models of PPDs show that magnetic fields are key to driving gas accretion through large-scale, laminar magnetic stresses. However, the effect of such magnetic fields on the SI has not been examined in detail. To this end, we study the stability of dusty, magneftized gas in a protoplanetary disk. We find the SI can be enhanced by passive magnetic torques and even persist in the absence of a global radial pressure gradient. In this case, instability is attributed to the azimuthal drift between dust and gas, unlike the classical SI, which is driven by radial drift. This suggests that the SI can remain effective inside dust-trapping pressure bumps in accreting disks. When a live vertical field is considered, we find the magneto-rotational instability can be damped by dust feedback, while the classic SI can be stabilized by magnetic perturbations. We also find that Alfvén waves can be destabilized by dust–gas drift, but this instability requires nearly ideal conditions. We discuss the possible implications of these results for dust dynamics and planetesimal formation in PPDs.
Author Lin, Min-Kai
Hsu, Chun-Yen
Author_xml – sequence: 1
  givenname: Min-Kai
  orcidid: 0000-0002-8597-4386
  surname: Lin
  fullname: Lin, Min-Kai
  organization: Physics Division, National Center for Theoretical Sciences, Taipei 10617, Taiwan
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  orcidid: 0000-0003-3567-0680
  surname: Hsu
  fullname: Hsu, Chun-Yen
  organization: Institute of Astronomy and Astrophysics, Academia Sinica, Taipei 10617, Taiwan
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SSID ssj0004299
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Snippet The streaming instability (SI) is one of the most promising pathways to the formation of planetesimals from pebbles. Understanding how this instability...
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StartPage 14
SubjectTerms Accretion disks
Alfven waves
Astrophysical fluid dynamics
Astrophysics
Drift
Dust
Hydrodynamics
Instability
Magnetic fields
Magnetohydrodynamics
Perturbation
Planet formation
Pressure gradients
Protoplanetary disks
Radial drift
Title Streaming Instabilities in Accreting and Magnetized Laminar Protoplanetary Disks
URI https://iopscience.iop.org/article/10.3847/1538-4357/ac3bb9
https://www.proquest.com/docview/2626299122
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