Distributions of the ion temperature, ion pressure, and electron density over the current sheet surface


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Abstract

The distributions of the ion temperature, ion pressure, and electron density over the width (the major transverse dimension) of the current sheet have been studied for the first time. The current sheets were formed in discharges in argon and helium in 2D and 3D magnetic configurations. It is found that the temperature of argon ions in both 2D and 3D magnetic configurations is almost uniform over the sheet width and that argon ions are accelerated by the Ampère force. In contrast, the distributions of the electron density and the temperature of helium ions are found to be substantially nonuniform. As a result, in the 2D magnetic configuration, the ion pressure gradient across the sheet width makes a significant contribution (comparable with the Ampère force) to the acceleration of helium ions, whereas in the 3D magnetic configuration, the Ampère force is counterbalanced by the pressure gradient.

About the authors

N. P. Kyrie

Prokhorov General Physics Institute

Author for correspondence.
Email: kyrie@fpl.gpi.ru
Russian Federation, ul. Vavilova 38, Moscow, 119991

V. S. Markov

Prokhorov General Physics Institute

Email: kyrie@fpl.gpi.ru
Russian Federation, ul. Vavilova 38, Moscow, 119991

A. G. Frank

Prokhorov General Physics Institute

Email: kyrie@fpl.gpi.ru
Russian Federation, ul. Vavilova 38, Moscow, 119991

D. G. Vasilkov

Prokhorov General Physics Institute

Email: kyrie@fpl.gpi.ru
Russian Federation, ul. Vavilova 38, Moscow, 119991

E. V. Voronova

Prokhorov General Physics Institute

Email: kyrie@fpl.gpi.ru
Russian Federation, ul. Vavilova 38, Moscow, 119991

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