http://arxiv.org/abs/1711.11126
The long term solar activity dependencies of ionospheric F$_1$ and F$_2$ regions’ critical frequencies ($f_0F_1$ and $f_0F_2$) are analyzed for the last four solar cycles (1976–2015). We show that the ionospheric F$_1$ and F$_2$ regions have different solar activity dependencies in terms of the sunspot group (SG) numbers: F$_1$ region critical frequency ($f_0F_1$) peaks at the same time with the small SG numbers, while the $f_0F_2$ reaches its maximum at the same time with the large SG numbers, especially during the solar cycle 23. The observed differences in the sensitivity of ionospheric critical frequencies to sunspot group (SG) numbers provide a new insight into the solar activity effects on the ionosphere and space weather. While the F$_1$ layer is influenced by the slow solar wind, which is largely associated with small SGs, the ionospheric F$_2$ layer is more sensitive to Coronal Mass Ejections (CMEs) and fast solar winds, which are mainly produced by large SGs and coronal holes. The SG numbers maximize during of peak of the solar cycle and the number of coronal holes peaks during the sunspot declining phase. During solar minimum there are relatively less large SGs, hence reduced CME and flare activity. These results provide a new perspective for assessing how the different regions of the ionosphere respond to space weather effects.
E. Yigit, A. Kilcik, A. Elias, et. al.
Fri, 1 Dec 17
11/68
Comments: Accepted for publication in Journal of Atmospheric and Solar-Terrestrial Physics