Pattern of Ionization Gradient, Solar Quiet Magnetic Element, and F2-Layer Bottomside Thickness Parameter at African Equatorial Location

Adebesin, B. O. and Adeniyi, J. O. and Adimula, I. A. and Adebiyi, S. J. and Ikubanni, S. O. and Oladipo, O. A. and Olawepo, A. O. (2019) Pattern of Ionization Gradient, Solar Quiet Magnetic Element, and F2-Layer Bottomside Thickness Parameter at African Equatorial Location. Radio Science, 54 (5). 415�425.

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Official URL: http://dx.doi.org/10.1029/2018rs006742

Abstract

The study of ionization gradient (dN/dh) profile in the description of ionospheric dynamics is not common. This is the first attempt at finding the dependence of ionization gradient, solar quiet component (Sq (BH)), and bottomside thickness parameter (B0) in the African equatorial sector. Digisonde and Magnetic Data Acquisition System data collocated at an equatorial location were employed. Result was presented for sunrise (00 LT), midday (12 LT), sunset (18 LT), and midnight (00 LT) hours. The ionization gradient peak height remains unchanged at midday across all months. A percentage correlation of 93% existed in the inverse and direct linear relationship of dN/dh‐B0 at sunrise, and of Sq (BH)‐B0 at midday, respectively. Significant relationship between dN/dh and Sq (BH) was at sunset; for other hours, the relationship is poor. The multiple linear relationship of dN/dh‐Sq (BH)‐B0 parameters revealed that the dependence of dN/dh on Sq (BH) and B0 is highest at midday, and a model equation was presented. The dependence of dN/dh on the solar activity index (F10.7) holds at all the selected hours, and distinct only at midday and midnight for the Sq (BH)‐F10.7 and B0‐F10.7 patterns. Both the peak ionization gradient and the height it occurs maximizes/minimizes at 18 LT/06 LT. The importance of the F region dynamo at heights above 150 km was reported.

Item Type: Article
Subjects: Q Science > QC Physics
Depositing User: SHOLA ADEBIYI
Date Deposited: 15 Jan 2024 07:35
Last Modified: 15 Jan 2024 07:35
URI: https://eprints.lmu.edu.ng/id/eprint/4396

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