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Wavenumber space analysis of oscillations in weakly non-uniform magnetoplasmas

Published online by Cambridge University Press:  13 March 2009

J. H. Brownell
J. H. Brownell
Affiliation:
Institute for Plasma Research, Stanford University
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Abstract

A differential equation in wavenumber space is used to find the electric field excited by an external source in a weakly non-uniform, low-β, neutral magneto- plasma slab (with B perpendicular to ∇n). The analysis is general enough to allow one to judge the accuracy of previously used long-wavelength methods. Electrostatic waves which propagate across the magnetic field parallel to the density gradient are considered, and the impedance of a grid-plasma system is determined. The calculation is specialized to the case of a low density plasma with applied frequencies near the upper hybrid.

Type
Research Article
Information
Journal of Plasma Physics , Volume 9 , Issue 2 , April 1973 , pp. 275 - 293
Copyright
Copyright © Cambridge University Press 1973

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References

REFERENCES

Azevedo, J. C.De, A. 1965 M.I.T. Q.P.R. 79, 87.Google Scholar
Baldwin, D. E. 1967 J. Plasma Phys. 1, 289.CrossRefGoogle Scholar
Bekefi, G., Coccoli, J. D. & Hooper, E. B. 1962 Phys. Rev. Lett. 9, 6.Google Scholar
Bekefi, G. 1966 Radiation Processes in Plasmas. Wiley.Google Scholar
Bernstein, I. B. 1958 Phys. Rev. 109, 10.Google Scholar
Bremmer, H. 1951 Comm. Pure Appl. Math. 4, 105.CrossRefGoogle Scholar
Brownell, J. H. 1971 Institute for Plasma Research, Stanford University, Rep. 415.Google Scholar
Brownell, J. H. 1972 Amer. J. Phys. (To be published).Google Scholar
Buchsbaum, S. J. & Hasegawa, A. 1966 Phys. Rev. 143, 303.Google Scholar
Buneman, O. 1961 Plasma Physics (ed. Drummond, J. E.).Google Scholar
Drummond, J. E., Gerwin, R. A. & Springer, B. G. 1961 J. Nuc. Energy, 2, 98.Google Scholar
Haar, D. Ter (trans., ed.) 1965 Problems in Quantum Mechanics. London: Infosearch.Google Scholar
Hasegawa, A. 1965 Phys. Fluids 8, 761.CrossRefGoogle Scholar
Holdren, J. P. 1970 Institute for Plasma Research, Stanford University, Rep. 351.Google Scholar
Jukes, J. D. 1968 Reports on Progress in Physics, vol. 31, part 1.Google Scholar
Krall, N. A. 1968 Advances in Plasma Physics, vol. 1, p. 153.Google Scholar
Langer, R. E. 1935 Trans. Amer. Math. Soc. 37, 397.Google Scholar
Pearson, G. A. 1966 Phys. Fluids, 9, 2454.CrossRefGoogle Scholar
Tataronis, J. A. 1967 Institute for Plasma Research, Stanford University, Rep. 205.Google Scholar
Timofeev, A. V. 1968 Nuclear Fusion, 8, 99.CrossRefGoogle Scholar