Polar wind ion bands after neutral sheet acceleration

Abstract

The transport of polar wind protons from their ionospheric source through the magnetosphere is examined, using three‐dimensional particle codes. The trajectory simulations demonstrate the escape of the high‐latitude polar wind in the boundary layers during the quiescent magnetosphere, and, in contrast, its trapping in the nightside plasma sheet at times of high Kp. It is shown that the equatorial curvature of the magnetic field lines plays the role of an acceleration filter which yields, during active conditions, an “ion band”‐like precipitation of the polar wind protons characterized by a decrease of the downflowing ion energy with latitude, from several hundred down to a few electron volts. A further comparison between data and computations tends to indicate that, during disturbed times, the dayside originating polar wind provides an important contribution to the hundreds of electron volt downflowing protons in the nightside sector.