Abstract
We study if and how the South Atlantic Anomaly influences the ionospheric solar quiet (Sq) current system. Geomagnetically quiet days are processed for the years 1990 and 2011, and the Sq foci tracks are analyzed. The two datasets allow to investigate the influence of the observatory network and the solar activity on the Sq source determination. The computed tracks result in pronounced bands in the northern and southern hemisphere, which seem to neither follow the geographic nor the geomagnetic or dip equator. Remarkably, we observe a distinct scattering of the tracks over the South Atlantic Anomaly. This systematic scattering is due to a larger shift of the southern hemisphere focus northwards during the northern summer solstice and southwards during the southern summer solstice. The physical mechanism of this systematic effect remains unclear. The longitudinal variations of the Sq foci are believed to have their origin from an influence of non-migrating tides as reported in recent studies and the anomalous weak amplitude of the geomagnetic main field over the South Atlantic Anomaly.
Highlights
As a prelude to upcoming electromagnetic (EM) induction studies to determine the three-dimensional (3-D) conductivity structure of the Earth’s upper mantle using the solar quiet (Sq) geomagnetic data, it is important to have a clear understanding of the Sq current system variability with respect to local and universal times, day, season, and longitude
The resulting Sq foci tracks for the two datasets are shown in Figures 3 and 4
Sq foci tracks for dataset 1 (1990): Dataset 1 allows to investigate if the unbalanced Intermagnet network is capable of obtaining a robust determination of the Sq source by balancing it with the 53 non-permanent Australian Wide Array of Geomagnetic Stations (AWAGS) stations in Australia
Summary
As a prelude to upcoming electromagnetic (EM) induction studies to determine the three-dimensional (3-D) conductivity structure of the Earth’s upper mantle using the solar quiet (Sq) geomagnetic data, it is important to have a clear understanding of the Sq current system variability with respect to local and universal times, day, season, and longitude. We revisit the problem by looking closely at the longitudinal behavior of the Sq foci tracks with the question in mind whether the South Atlantic Anomaly (SAA) influences the Sq current system. The Sq current system is flowing at a 110-km altitude in the thin ionospheric E-layer and has a double vortex structure, Koch and Kuvshinov Earth, Planets and Space (2015) 67:10
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