Theory of Universal Eigenmodes in a Sheared Magnetic Field

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28 August 1978

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 41 (9), 649-653
https://doi.org/10.1103/PhysRevLett.41.649

Abstract

Collisionless drift-wave eigenmodes in a sheared magnetic field are analyzed using the WKBJ method. It is found that, for

\frac{L_{s}}{L_{n}} > {(\frac{L_{s}}{L_{n}})}_{c}

, ion-sound dynamics determines the eigenvalues at small

{k_{y}}^{2}

and the eigenmodes are damped. However, at large

{k_{y}}^{2}

, electron dynamics dominates and the eigenmodes become marginally stable. For

\frac{L_{s}}{L_{n}} < {(\frac{L_{s}}{L_{n}})}_{c}

, the eigenmodes are damped for all values of

{k_{y}}^{2}

. The critical value

{(\frac{L_{s}}{L_{n}})}_{c}

scales as

{(\frac{m_{i}}{m_{e}})}^{\frac{1}{4}}

.

Keywords

This publication has 8 references indexed in Scilit:

Stability of Bound Eigenmode Solutions for the Collisionless Universal Instability
Physical Review Letters, 1978
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Physical Review Letters, 1978
"Absolute Universal Instability" Is Not Universal
Physical Review Letters, 1978
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Universal Eigenmode in a Strongly Sheared Magnetic Field
Physical Review Letters, 1969
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Physics of Fluids, 1967
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Nuclear Fusion, 1966

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