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3 - Convective and non-convective instabilities; group velocity in unstable media

Published online by Cambridge University Press:  05 June 2012

Eryk Infeld
Affiliation:
Soltan Institute for Nuclear Studies, Warsaw
George Rowlands
Affiliation:
University of Warwick
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Summary

Introduction

In Chapter 2 a linear theory of waves and instabilities was presented for the case of the propagation of waves in infinite and uniform media. Basically one considers the wave disturbance (in one dimension) to be proportional to exp(ikx - iωt) with ω, k satisfying the dispersion relation D(ω, k) = 0. In many problems, for example infinite media, one must take k to be real, in which case one distinguishes between stable (Imω(k) ≤ 0 and unstable disturbances for a particular k value Imω(k) ≤ 0).

Early experiments suggested that such an approach was not always sufficient. For example, experiments involving the interaction of charged particle beams with stationary plasmas consistently showed little sign of being unstable. On the other hand, all theoretical models based on the ideas outlined above unequivocably suggested the system to be unstable. In the case of plasmabeam experiments, the explanation which resolved this difficulty was given independently by Sturrock (1958) and by Fainberg, Kurilko and Shapiro (1961). The Soviet authors based their method on earlier work by Landau and Lifshitz (1959) Chapter 3. These latter authors were concerned with problems in fluid mechanics.

The resolution of this problem is based on the fact that it is not sufficient to treat the time development of a system by considering just a single k mode, but rather it is necessary to consider a spatial pulse or wave packet which is composed of a range of k values. Then unstable media can be classified into two distinct types.

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Publisher: Cambridge University Press
Print publication year: 2000

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