Digisonde measurements of polar cap convection for northward interplanetary magnetic field

Abstract

Controversy still exists regarding even the average convection pattern when the interplanetary magnetic field (IMF) has a northward component. Using two years of convection data from a Digisonde located at Qaanaaq only 3° from the corrected geomagnetic pole we have examined the diurnal convection flow direction variation in the central polar cap when the IMF is particularly stable. We find that when B_z is positive, and when B_y positive and B_y negative data are treated independently, each exhibits a clear diurnal pattern. The patterns are most nearly consistent with a multicell convection model, e.g. Potemra et al. (1984); there are, however, two anomalies. Our synthesized polar cap convection patterns exhibit a polar cap cell centered on 10 corrected geomagnetic local time (CGLT) when B_y > 1 nT and 13 CGLT when B_y < −1 nT in contrast to 06 and 18 CGLT predicted by the multicell models. Furthermore, in contrast to the simple multicell models the convection flow patterns for opposite B_y polarities are not simple mirror images of each other. When B_y < −1 nT the convection is directed across the central polar cap toward 02 CGLT for much of the day but when B_y > 1 nT the flow is tangential to the Qaanaaq geomagnetic latitude for much of the day.