Climatological Response of Indian Low-Latitude Ionosphere to Geomagnetic Storms
Climatological Response of Indian Low-Latitude Ionosphere to Geomagnetic Storms
Wednesday, 13 February 2019
Fountain III/IV (Westin Pasadena)
Abstract:
A climatological response of low-latitude ionosphere to geomagnetic storms is presented using
long-term global ionospheric maps data from June 1998 to June 2015 covering two solar cycles 23 and 24.
The results are presented for daytime forenoon and afternoon sectors under minor, moderate, and major
ionospheric storm categories based on minimum Dst index criterion. For the first time the effectiveness of
storms is identified using monthly standard deviation as an indicator of the day to day variability in equatorial
and low-latitude ionosphere. Thus, results on climatology are definitive and form a database that would be
comparable to statistical results from any other longitude and time. Seasonal statistics for total storms,
effective positive and negative storms, and amplitude of mean seasonal perturbation in total electron
content are obtained. Total and effective storms are found to be higher in solar cycle 23 than in 24 and only a
couple of effective storms occurred during low solar activity 2007–2009 that too in minor category.
Afternoon sector is found to be favorable for occurrence of maximum number of effective positive storms. A
latitudinal preference is found for a given storm to be effective in either time sectors. Equinoctial asymmetry
in ionospheric response both in terms of occurrence and perturbation amplitude is found. September
equinoxes are found to bear maximum total, effective positive and negative storms. Winters are found more
prone to negative storms, whereas summers have recorded minimum number of either of storms and
minimum perturbation amplitudes
long-term global ionospheric maps data from June 1998 to June 2015 covering two solar cycles 23 and 24.
The results are presented for daytime forenoon and afternoon sectors under minor, moderate, and major
ionospheric storm categories based on minimum Dst index criterion. For the first time the effectiveness of
storms is identified using monthly standard deviation as an indicator of the day to day variability in equatorial
and low-latitude ionosphere. Thus, results on climatology are definitive and form a database that would be
comparable to statistical results from any other longitude and time. Seasonal statistics for total storms,
effective positive and negative storms, and amplitude of mean seasonal perturbation in total electron
content are obtained. Total and effective storms are found to be higher in solar cycle 23 than in 24 and only a
couple of effective storms occurred during low solar activity 2007–2009 that too in minor category.
Afternoon sector is found to be favorable for occurrence of maximum number of effective positive storms. A
latitudinal preference is found for a given storm to be effective in either time sectors. Equinoctial asymmetry
in ionospheric response both in terms of occurrence and perturbation amplitude is found. September
equinoxes are found to bear maximum total, effective positive and negative storms. Winters are found more
prone to negative storms, whereas summers have recorded minimum number of either of storms and
minimum perturbation amplitudes