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Ideal stability of cylindrical plasma in the presence of mass flow

TitleIdeal stability of cylindrical plasma in the presence of mass flow
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication1989
AuthorsBondeson, A., and Iacono Roberto
JournalPhysics of Fluids B
Volume1
Pagination1431-1443
ISSN08998221
Abstract

The ideal stability of cylindrical plasma with mass flows is investigated using the guiding center plasma (GCP) model of Grad [Proceedings of the Symposium on Electromagnetic and Fluid Dynamics of Gaseous Plasmas (Polytechnic Inst. of Brooklyn, New York, 1961), p. 37]. For rotating plasmas, the kinetic treatment of the parallel motion in GCP gives significantly different results from the fluid models, where the pressures are obtained from equations of state. In particular, GCP removes the resonance with slow magnetoacoustic waves and the loss of stability that occurs in magnetohydrodynamics (MHD) for near-sonic flows. Because of the strong kinetic damping of the sound waves in an isothermal plasma, the slow waves have little influence on plasma stability in GCP at low beta. In the large aspect ratio, low-beta tokamak ordering, Alfvénic flows are needed to change the ideal GCP stability significantly. At lowest order in the inverse aspect ratio, flow can be favorable or unfavorable for stability of local modes depending on the profiles, but external kinks are always destabilized by flow if the velocity vanishes at the edge. For high-beta, reversed field pinch equilibria, numerical computations show that flow can be stabilizing for local modes, but external modes are destabilized by flow. In three dimensions, the MHD equilibrium problem becomes hyperbolic for arbitrarily small flows across the magnetic field, whereas the GCP equilibrium equation remains elliptic for sub-Alfvénic flows. © 1989 American Institute of Physics.

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Citation KeyBondeson19891431