Journal
ASTROPHYSICAL JOURNAL
Volume 562, Issue 2, Pages 909-917Publisher
UNIV CHICAGO PRESS
DOI: 10.1086/323875
Keywords
accretion, accretion disks; black hole physics; convection; hydrodynamics; instabilities; turbulence
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The stability of a dilute plasma to local convective and rotational disturbances is examined. A subthermal magnetic field and finite thermal conductivity along the field lines are included in the analysis. Stability criteria similar in form to the classical inequalities are found, but with angular velocity Hoiland gradients replacing angular momentum gradients, and temperature gradients replacing entropy gradients. These criteria are indifferent to the properties of the magnetic field and to the magnitude of the thermal conductivity. Angular velocity gradients and temperature gradients are both free energy sources; it is not surprising that they are directly relevant to the stability of the gas. Magnetic fields and thermal conductivity provide the means by which these sources can be tapped. Previous studies have generally been based upon the classical criteria, which are inappropriate for magnetized, dilute astrophysical Hoiland plasmas. In sharp contrast to recent claims in the literature, the new stability criteria demonstrate that marginal flow stability is not a fundamental property of accreting plasmas thought to be associated with low-luminosity X-ray sources.
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