Abstract
The variations of the hourly observations of the critical frequency foF2, recorded at the Ionospheric Observatory of Rome by the AIS-INGV ionosonde (geographic coordinates 41.82° N, 12.51° E; geomagnetic coordinates 41.69° N, 93.97° E) during the low activity periods at the turn of solar cycles 21–22, 22–23 and 23–24, are investigated. Deviations of foF2 greater than ± 15% with respect to a background level, and with a minimum duration of 3 h, are here considered anomalous. The dependence of these foF2 anomalies on geomagnetic activity has been accurately investigated. Particular attention has been paid to the last deep solar minimum 2007–2009, in comparison with the previous solar cycle minima. The lack of day-time anomalous negative variations in the critical frequency of the F2 layer, is one of the main findings of this work. Moreover, the analysis of the observed foF2 anomalies confirms the existence of two types of positive F2 layer disturbances, characterised by different morphologies and, different underlying physical processes. A detailed analysis of four specific cases allows the definition of possible scenarios for the explanation of the mechanisms behind the generation of the foF2 anomalies.
Highlights
The response of the Earth’s ionosphere to geomagnetic storms is an integral part of Space Weather
Concerning the years at the turn of solar cycles 23–24, we found a greater number of foF2 anomalies observed during quiet geomagnetic conditions, with respect to the previous years, this is probably due to the higher number of days characterised by geomagnetic condition ap = G0 and AE < 100 nT
In accordance with the results presented in previous papers (Cander & Mihajlovic, 1998; Tsagouri et al, 2000), a strong dependence has been observed between foF2 strong disturbances, and perturbed geomagnetic conditions
Summary
The response of the Earth’s ionosphere to geomagnetic storms is an integral part of Space Weather. Monitoring and forecasting of space weather effects in the ionosphere has as necessary requisites the in depth understanding of the coupling mechanisms appearing during a geomagnetic storm and the related dynamics (e.g. event evolution and time scale). Morphological studies suggest that positive storms effects occur in any local time (LT) sector, while negative storms effects are more frequently detected in the post-midnight/early-morning LT sector (e.g. Tsagouri & Belehaki, 2008, Mikhailov et al, 2012). This because the energy input at high latitudes can produce changes in thermospheric wind composition, resulting in significant variations of the ionospheric electron density (Mikhailov & Perrone, 2009). Day-time positive storms effects are typically associated with weak or moderate geomagnetic disturbances
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