Hydromagnetic waves in a cylindrical plasma

L. C. Woods

doi:10.1017/S0022112062000944

Abstract

This paper contained several extensions of the theory of hydromagnetic waves in a partially ionized gas. The gas is confined in a cylindrical tube through which passes an axial magnetic field. The tube wall is assumed to be either a perfect conductor or a material of small or zero conductivity.

The effects of the viscosity and compressibility of the ionized and neutral gases are included in the theory, as also are the contributions of finite conductivity and the ion-cyclotron term. The non-isotropic character of the viscosity and conductivity coefficients of the ionized gas is taken into account. New boundary conditions are derived for tubes with insulating walls, and it is shown that the only pure modes that can be propagated along such tubes are just two special cases of those waves having no azimuthal dependence.

The principal result of the paper is a new dispersion relation which allows for all the dissipative effects just mentioned and which is valid for a range of frequencies which extends well beyond the ion cyclotron frequency, but falls short of the frequency at which electron inertia and displacement currents became effective.

References

Allen, T. K., Baker, W.R., Pyle, R. V. & Wilcox, J. M. 1959 Phys. Rev. Letters, 2, 383.

Gajewski, R. 1959 Phys. Fluids, 2, 663.

Jephcott, D. F. 1959 Nature, Lond., 183, 1652.

Jephcott, D. F. & Stocker, P. M. 1962 J. Fluid Mech. 13, 587.

Jephcott, D. F., Stocker, P. M. & Woods, L. C. 1961 Proc. Conf. Plasma Physics and Controlled Nuclear Fusion Research, Salzburg.

Lehnert, B. 1959 Supplements to Vol. XIII, Serie X, Del Nuovo Cimento, 59.

Marshall, W. 1960 Kinetic Theory of an Ionized Gas, Pt. 2, A.E.R.E. T/R 2352. H.M.S.O.

Newcomb, W. A. 1957 Magnetohydrodynamics, p. 109. Stanford University Press.

Piddington, J. H. 1956 Mon. Not. R. Astr. Soc. 116, 314.

Spitzer, L. 1956 Physics of Fully Ionized Gases. New York: Interscience.

Stix, T. H. 1957 Phys. Rev. 106, 1146.

Stix, T. H. 1958 Phys. Fluids, 1, 308.

Stratton, J. A. 1941 Electromagnetic Theory. New York: McGraw-Hill.

Wilcox, J. M., Boley, F. I. & De Silva, A. W. 1959 Univ. Calif. Rep. UCRL-8885.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Jephcott, D. F. and Stocker, P. M. 1962. Hydromagnetic waves in a cylindrical plasma: an experiment. Journal of Fluid Mechanics, Vol. 13, Issue. 4, p. 587.

Woods, L. C. 1963. Plasma Instabilities Induced by Resistivity Gradients. The Physics of Fluids, Vol. 6, Issue. 5, p. 729.

Stringer, T E 1963. Low-frequency waves in an unbounded plasma. Journal of Nuclear Energy. Part C, Plasma Physics, Accelerators, Thermonuclear Research, Vol. 5, Issue. 2, p. 89.

1964. Experimental study of fast hydromagnetic waves in an argon plasma. Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, Vol. 278, Issue. 1373, p. 243.

Woods, L. C. 1964. Finite Amplitude Effects on Hydromagnetic Waves. The Physics of Fluids, Vol. 7, Issue. 12, p. 1987.

McPherson, Donald A. 1964. Observations of Interaction Between Hydromagnetic Wave and Electrical Current. Physical Review Letters, Vol. 13, Issue. 8, p. 267.

Woods, L. C. 1964. On the boundary conditions at an insulating wall for hydromagnetic waves in a cylindrical plasma. Journal of Fluid Mechanics, Vol. 18, Issue. 03, p. 401.

Swanson, D. G. Gould, R. W. and Hertel, R. H. 1964. Experimental Study of Compressional Hydromagnetic Waves. The Physics of Fluids, Vol. 7, Issue. 2, p. 269.

Woods, L. C. 1965. Density waves in low-pressure plasma columns. Journal of Fluid Mechanics, Vol. 23, Issue. 02, p. 315.

Klozenberg, J. P. McNamara, B. and Thonemann, P. C. 1965. The dispersion and attenuation of helicon waves in a uniform cylindrical plasma. Journal of Fluid Mechanics, Vol. 21, Issue. 3, p. 545.

Malein, A. 1965. Hydromagnetic waves in a partially ionized hydrogen plasma. Nuclear Fusion, Vol. 5, Issue. 4, p. 352.

Willett, Joseph E. and Sodek, Benard A. 1965. Three-Fluid Analysis of a Hydromagnetic Waveguide. Journal of Applied Physics, Vol. 36, Issue. 12, p. 3863.

Sodek, B A 1965. Magnetoplasma waveguide with viscosity and heat conduction. Journal of Nuclear Energy. Part C, Plasma Physics, Accelerators, Thermonuclear Research, Vol. 7, Issue. 6, p. 547.

McPherson, D. A. 1966. Experimental Observations of the Kadomtsev Resistive Instability. The Physics of Fluids, Vol. 9, Issue. 7, p. 1373.

McPherson, D. A. and Pridmore-Brown, D. C. 1966. Density Gradient Effects on Alfvén Wave Propagation in a Cylindrical Plasma. The Physics of Fluids, Vol. 9, Issue. 10, p. 2033.

Cross, R.C. and Lehan, J.A. 1967. Propagation of compressional and torsional Alfven waves under identical plasma conditions. Nuclear Fusion, Vol. 7, Issue. 4, p. 219.

Sodek, B A and Willett, J E 1967. Multi-fluid effects in a hydromagnetic waveguide. Plasma Physics, Vol. 9, Issue. 2, p. 113.

SESSLER, G.M. 1968. Applications to Quantum and Solid State Physics. Vol. 4, Issue. , p. 99.

Cross, R. C. and Lehane, J. A. 1968. Hydromagnetic Waves in a Nonuniform Hydrogen Plasma. The Physics of Fluids, Vol. 11, Issue. 12, p. 2621.

Davies, B 1969. Vacuum boundary conditions for helicon waves in a cylindrical plasma. Journal of Physics A: General Physics, Vol. 2, Issue. 6, p. 717.

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Hydromagnetic waves in a cylindrical plasma

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