Solar and IMF Effects on Mid-Latitude Ionospheric Electric Fields and foF2.

DOI Web Site 参考文献27件
  • Iyemori T.
    Data Analysis Center for Geomagnetism and Space Magnetism, Faculty of Science, Kyoto University
  • Takeda M.
    Data Analysis Center for Geomagnetism and Space Magnetism, Faculty of Science, Kyoto University
  • Saito A.
    Geophysical Institute, Faculty of Science, Kyoto University
  • Araki T.
    Geophysical Institute, Faculty of Science, Kyoto University
  • Hashimoto T.
    Geophysical Institute, Faculty of Science, Kyoto University
  • Tanaka Y.
    Beppu Geophysical Research Institute, Faculty of Science, Kyoto University

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タイトル別名
  • Solar and IMF Effects on Mid-Latitude I

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The solar and IMF effects were statistically detected in mid-latitude (L = 1.25) ionospheric electric field data obtained by the MU radar. It was found that the IMF-Bx component (sector polarity) and the solar radio flux (SRF) correlates with the north-south component of the electric field on the night-side. For more positive (sunward) Bx, or for greater SRF, the electric field is more southward/downward. However, strong mutual correlation between the IMF-Bx and the SRF is found in the period analyzed (1987-1993), suggesting that the night-side correlation between electric fields and IMF-Bx comes from the effect of the solar activity rather than the direct influence of the IMF-Bx. In fact it was also found from the data for almost two solar cycles that the IMF-Bx (or By) dependence of the ionospheric foF2 is very similar with the solar activity (sunspot number) dependence of it. This suggests that the mutual correlation between the solar activity and the IMF-Bx, (or By) causes the apparent correlation of the foF2 with the IMF-Bx which has been reported as a sector polarity effect. On the other hand, the direct effects of the IMF-Bx (or By) on the electric fields were also detected by taking the correlations between the time differentials of them and the results are consistent with the known IMF effects on the Sq focus location. The differentials of the IMF-Bz have significant correlation with the electric fields in limited local time zones and the sense of electric field is consistent with the penetration of the dawn-to-dusk electric field in the magnetosphere indicating the imperfect shielding by the plasmasphere.

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