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Stratified and Vertically Shearing Streaming Instabilities in Protoplanetary Disks

Min-Kai Lin

2021The Astrophysical Journal33 citationsDOIOpen Access PDF

Abstract

Abstract Under the right conditions, the streaming instability between imperfectly coupled dust and gas is a powerful mechanism for planetesimal formation as it can concentrate dust grains to the point of gravitational collapse. In its simplest form, the streaming instability can be captured by analyzing the linear stability of unstratified disk models, which represent the midplane of protoplanetary disks. We extend such studies by carrying out vertically global linear stability analyses of dust layers in protoplanetary disks. We find that the dominant form of instability in stratified dust layers is the one driven by the vertical gradient in the rotation velocity of the dust−gas mixture, but also requires partial dust−gas coupling. These vertically shearing streaming instabilities grow on orbital timescales and occur on radial length scales ∼ 10 −3 H g , where H g is the local pressure scale height. The classic streaming instability, associated with the relative radial drift between dust and gas, occurs on radial length scales ∼ 10 −2 H g , but has much smaller growth rates than vertically shearing streaming instabilities. Including gas viscosity is strongly stabilizing and leads to vertically elongated disturbances. We briefly discuss the potential effects of vertically shearing streaming instabilities on planetesimal formation.

Topics & Concepts

Streaming instabilityPlanetesimalPhysicsShearing (physics)InstabilityMechanicsPlanetGravitational instabilityProtoplanetary diskScale heightAstronGravitational collapseGravitationClassical mechanicsLength scaleAstrophysicsHydrostatic equilibriumMillimeterMagnetorotational instabilityAngular velocityAccretion (finance)Radial velocityPressure gradientStratified flowAstrophysics and Star Formation StudiesAstronomy and Astrophysical ResearchAstro and Planetary Science
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