ALFVEN RESONANCE RECONSIDERED - EXACT EQUATIONS FOR WAVE-PROPAGATION ACROSS A COLD INHOMOGENEOUS-PLASMA

被引:40
作者
BELLAN, PM
机构
[1] California Institute of Technology, Pasadena
关键词
D O I
10.1063/1.870888
中图分类号
O35 [流体力学]; O53 [等离子体物理学];
学科分类号
070204 ; 080103 ; 080704 ;
摘要
Previous discussions of Alfven wave propagation across an inhomogeneous plasma predicted that shear Alfven waves become singular (resonant) at the omega = k(z)v(A) layer and that there is a strong wave absorption at this layer giving localized ion heating. In this paper the three standard derivations of the Alfven 'resonance' (incompressible magnetohydrodynamics, compressible magnetohydrodynamics, and two-fluid) are re-examined and shown to have errors and be mutually inconsistent. Exact two-fluid differential equations for waves propagating across a cold inhomogeneous plasma are derived; these show that waves in an ideal cold plasma do not become 'resonant' at the Alfven layer so that there is no wave absorption or localized heating. These equations also show that the real 'shear' Alfven wave differs in substance from both the ideal MHD and earlier two-fluid predictions and, in the low density, high field region away from the omega = k(z)v(A) layer, is actually a quasielectrostatic resonance cone mode. For omega much-lesser-than omega(ci) and k(y) = 0, the omega = k(z)v(A) layer turns out to be a cutoff (reflecting) layer for both the 'shear' and compressional modes (and not a resonance layer). For finite omega/omega(ci) and k(y) = 0 this layer becomes a region of wave inaccessibility. For omega much-lesser-than omega(ci) and finite k(y) there is strong coupling between shear and compressional modes, but still no resonance.
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页码:3523 / 3541
页数:19
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