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Excitation of Alfvén waves by fast particles in a finite pressure plasma of adiabatic traps

Published online by Cambridge University Press:  13 March 2009

B. I. Meerson ,
A. B. Mikhallovskii  and
O. A. Pokhotelov
B. I. Meerson
Affiliation:
O. Yu. Schmidt Institute of Physics of Earth, Moscow, USSR
A. B. Mikhallovskii
Affiliation:
O. Yu. Schmidt Institute of Physics of Earth, Moscow, USSR
O. A. Pokhotelov
Affiliation:
O. Yu. Schmidt Institute of Physics of Earth, Moscow, USSR
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Abstract

Resonant excitation of Alfvén waves by fast particles in a finite pressure plasma in a non-uniform magnetic field is studied. Plasma compressibility in the wave field is determined both by the curvature of the magnetic lines of force and finite Larmor radius of fast particles. A general expression for the instability growth rate is obtained and analyzed; the applicability of the results obtained in the previous paper has also been studied. The finite pressure stabilization of the trapped particles instability has been found. The bounce-resonance effects are analyzed.

Type
Research Article
Information
Journal of Plasma Physics , Volume 20 , Issue 1 , August 1978 , pp. 137 - 148
Copyright
Copyright © Cambridge University Press 1978

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References

REFERENCES

Bateman, H. & Eredélyi, A. 1953 Higher Transcendental Functions, vol. 2. McGraw-Hill.Google Scholar
Brown, W. L., Cahill, L. J., Davis, L. R., Mcilwaine, C. E. & Roberts, C. S. 1968 J. Geophys. Res. 73, 153.CrossRefGoogle Scholar
Ioffe, M. S. & Kadomtsev, B. B. 1970 Soviet Phys. Uspekhi, 13, 225.CrossRefGoogle Scholar
Kaplan, S.A.Pikel'ner, S. B. & Tsytovich, Y. N. 1974 Phys. Reports, 15c, 1.CrossRefGoogle Scholar
Karpman, Y. I., Meerson, B. I., Mikhallovskii, A. B. & Pokhotelov, O. A. 1977 Planet Space Sci. 25, 573.CrossRefGoogle Scholar
Kaufman, A. N. & Nakayama, T. 1970 Phys. Fluids, 13, 956.CrossRefGoogle Scholar
Kennel, C. F. 1969 Rev. Geophys.. 1, 379.CrossRefGoogle Scholar
Kozhevnikov, A. A., Mikhailovskii, A. B. & Pokhotelov, O. A. 1976 Planet. Space Sci. 24, 465.CrossRefGoogle Scholar
Meerson, B. I., Mikhailovskii, A. B. & Pokhotelov, O. A. 1977 Plasma Phys. 19, 1177.CrossRefGoogle Scholar
Mikhailovskii, A. B. 1973 Nucl. Fusion, 13, 259.CrossRefGoogle Scholar
Mikhailovskii, A. B. 1974 Theory of Plasma Instabilities, vol. 1, 2. Consultants Bureau.CrossRefGoogle Scholar
Mikhailovskii, A. B. & Fridman, A. M. 1967 Soviet Phys. JETP, 24, 965.Google Scholar
Mikhailovskii, A. B. & Pokhtelov, O. A. 1975 Fizika Plazmi, 1, 786.Google Scholar
Mikhailovskii, A. B. & Pokhotelov, O. A. 1977 Soviet Phys. JETP, 47, 10.Google Scholar
Mikhailovskii, A. B.Pokhotelov, O. A., Ryzhov, N. M. & Suprunenko, V. A. 1976 Fizika Plazmi, 2. 82.Google Scholar
Newkirk, G. 1974 IAU Symposium 57: Coronal Disturbances. Reidel.CrossRefGoogle Scholar
pilipenko, V. A. & Pohotelov, O. A. 1977 Geomagn. i aeronomia, 17, 161.Google Scholar
Pokhotelov, O. A. & Pilipeuko, V. A. 1976 Geomagn. i aeronomia, 16, 504.Google Scholar
Southwood, D. J. 1973 Planet. Space Sci. 21, 53.CrossRefGoogle Scholar
Troitskaya, V. A. & Gul'elmi, A. V. 1967 Space Sci. Rev. 7, 689.CrossRefGoogle Scholar