Birkeland Current Effects on High-Latitude Ground Magnetic Field Perturbations

Abstract:

Magnetic perturbations on ground at high latitudes are directly associated only with the divergence-free component of the height-integrated horizontal ionospheric current. We show how divergence-free horizontal current can be expressed as the total horizontal current minus its curl-free component, the latter being completely determined by the global Birkeland current pattern. Thus in regions where the current is zero, the global Birkeland current distribution alone determines the local magnetic perturbation. We show with observations from ground and space that in the polar cap, the ground magnetic field perturbations tend to align with the Birkeland current contribution in darkness but not in sunlight. We also show that in sunlight, the ground magnetic field perturbations are typically such that the equivalent overhead current is anti-parallel to the convection, indicating that the Hall current system dominates. Thus the ground magnetic field in the polar cap is dominated by different current systems in sunlight and in darkness. Consequently large inter-hemispheric differences in high-latitude magnetic field perturbations can be expected, particularly during solstices. We investigate such differences using magnetically conjugate observations from the two hemispheres.