POLAR-CAP POTENTIAL DISTRIBUTIONS DURING PERIODS OF POSITIVE IMF BY AND BZ

We compare the DE-2 electric field measurements used by HEPPNER and MAYNARD [(1987) J. geophys. Res. 92, 4467] to illustrate strongly distorted, BC convection patterns for IMF B(Z) > 0 and large \B(Y)\, with simultaneous detections of particle spectra, plasma drifts and magnetic perturbations. Measured potentials >50 keV, driven by the solar wind speeds exceeding 500 km/s, are greater than published correlation analysis predictions by up to 27%. The potential distributions show only two extrema and thus support the basic conclusion that under these conditions the solar wind/IMF drives two- rather than four-cell convection patterns. However, several aspects of the distorted two-cell convection pattern must be revised. In addition to the strong east-west convection in the vicinity of the cusp, indicated by Heppner and Maynard, we also detect comparable components of sunward (equatorward) plasma flow. Combined equipotential and particle precipitation distributions indicate the presence of a lobe cell embedded within the larger, afternoon reconnection cell. Both types rotate in the same sense, with the lobe cell carrying 20-40% of the total afternoon cell potential. We detected no lobe cell within morning convection cell.