Abstract
Abstract. The arrival of an interplanetary coronal mass ejection (ICME) triggered a sudden storm commencement (SSC) at ~09:22 UT on the 7 January 2005. The ICME followed a quiet period in the solar wind and interplanetary magnetic field (IMF). We present global scale observations of energetic electron precipitation during the moderate geomagnetic storm driven by the ICME. Energetic electron precipitation is inferred from increases in cosmic noise absorption (CNA) recorded by stations in the Global Riometer Array (GLORIA). No evidence of CNA was observed during the first four hours of passage of the ICME or following the sudden commencement (SC) of the storm. This is consistent with the findings of Osepian and Kirkwood (2004) that SCs will only trigger precipitation during periods of geomagnetic activity or when the magnetic perturbation in the magnetosphere is substantial. CNA was only observed following enhanced coupling between the IMF and the magnetosphere, resulting from southward oriented IMF. Precipitation was observed due to substorm activity, as a result of the initial injection and particles drifting from the injection region. During the recovery phase of the storm, when substorm activity diminished, precipitation due to density driven increases in the solar wind dynamic pressure (Pdyn) were identified. A number of increases in Pdyn were shown to drive sudden impulses (SIs) in the geomagnetic field. While many of these SIs appear coincident with CNA, SIs without CNA were also observed. During this period, the threshold of geomagnetic activity required for SC driven precipitation was exceeded. This implies that solar wind density driven SIs occurring during storm recovery can drive a different response in particle precipitation to typical SCs.
Highlights
Riometers enable the investigation of precipitation of energetic electrons into the D-region of the ionosphere through measurement of the absorption of cosmic noise (CNA).One mechanism for the enhancement of precipitation in the auroral zones is the compression of the magnetosphere as a result of an increase in the dynamic pressure (Pdyn) of the solar wind (Brown et al, 1961)
We have presented a case study of energetic electron precipitation during a moderate geomagnetic storm driven by the passage of an interplanetary coronal mass ejection (ICME)
Observations were made by riometers in Canada and Fennoscandia that comprise part of Global Riometer Array (GLORIA); the locations of the instruments at the time of the storm onset were advantageous for studying both external and internal precipitation trigger mechanisms during the period of elevated geomagnetic activity
Summary
Riometers enable the investigation of precipitation of energetic electrons into the D-region of the ionosphere through measurement of the absorption of cosmic noise (CNA). At this time, the satellite was located at an MLT of ∼23:56, inside the injection region. A seemingly dispersionless injection can be seen in the electron flux intensity at LANL-02A at ∼22:27 UT on 7 January (∼02:39 MLT), indicating the onset of the second period of substorm activity at this time. This activity follows the second decrease in Dst , occurring between 22:00 UT and 23:00 UT, and a period of southward IMF. ∼09:22 UT, and the onset of two substorms, at ∼14:12 UT and ∼22:27 UT, for both the SGO riometers and IRIS and the NORSTAR riometers
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