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The stability of protostellar disks with Hall effect and buoyancy

The stability properties of inviscid protostellar disks are examined taking into account the Hall effect and buoyancy. Depending on the parameters, different types of instabilities can exist in different regions of disks. In a very low ionized region, the instability associated with baroclinic effects of buoyancy is likely most efficient. The Hall-driven shear instability can lead to destabilization of regions with a higher ionization. The magnetorotational instability modified by buoyancy can only be a destabilizing factor in regions with strong magnetic field or a relatively high conductivity ($σB^2 / ρ> a_e Ω$, with $a_e$ the magnetization parameter of electrons).

preprint2003arXivOpen access
V. UrpinG. Rüdiger
astro-ph
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Open access2 authors1 topic
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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V. UrpinG. Rüdiger

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