Propagation of a solitary wave along a magnetic field in a cold collision-free plasma

P. G. Saffman

doi:10.1017/S0022112061000822

Abstract

It is shown that solitary hydromagnetic waves can propagate parallel to a uniform magnetic field in a cold collision-free plasma. These waves are exact solutions of the non-linear equations of motion except for the quasi-neutral approximation. The velocity of propagation lies in a range of values somewhat larger than the Alfvén velocity, and is of the order of 25 times the Alfvén velocity for hydrogen, the precise value depending upon the strength of the wave. Simple expressions exist for the velocities of the ions and electrons and the magnetic field inside the wave. The lines of force are spirals about the direction of propagation. The waves are symmetrical about their middle. The order of magnitude of their width is the geometric mean of the gyro-radii of the ions and electrons when moving with the Alfvén velocity. The maximum value of the magnetic field can be somewhat larger than the value away from the wave.

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Propagation of a solitary wave along a magnetic field in a cold collision-free plasma

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

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Propagation of a solitary wave along a magnetic field in a cold collision-free plasma

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