Storm‐Time Observations of Traveling Ionospheric Disturbances and Ionospheric Irregularities in East Africa

In this paper equatorward propagating large scale traveling ionospheric disturbance (LSTID) on 17 March 2015 were investigated using the Statistical Angle‐of‐Arrival and Doppler Method for GPS (SADM‐GPS) radio interferometry technique in data‐scarce East Africa. To apply the SADM‐GPS method, 5 GPS a...

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Bibliographic Details
Published in:Radio science 2022-08, Vol.57 (8), p.n/a
Main Authors: Moges, Samson T., Giday, Nigussie Mezgebe, Chekole, Daniel Atnafu, Ulich, Thomas, Sherstyukov, R. O.
Format: Article
Language:English
Subjects:
Arrays
Global positioning systems
GPS
Interferometry
ionospheric irregularities
Ionospheric propagation
Irregularities
LSTIDs
Magnetic storms
Plasma density
SADM‐GPS technique
Total Electron Content
Traveling ionospheric disturbances
Wavelet analysis
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Summary:In this paper equatorward propagating large scale traveling ionospheric disturbance (LSTID) on 17 March 2015 were investigated using the Statistical Angle‐of‐Arrival and Doppler Method for GPS (SADM‐GPS) radio interferometry technique in data‐scarce East Africa. To apply the SADM‐GPS method, 5 GPS arrays each with 3 GPS receivers arranged in a triangular geometry were used. Our results show that during 15:00–18:00 UT on 17 March, TIDs with mean horizontal velocities between 161.9 and 464.4 m/s were observed. Using the wavelet analysis, the periods of TIDs in a range of 51–69 min that qualify to LSTIDs were revealed. The peak‐to‐peak phase shift of detrended total electron content (TEC) over latitudes in this study confirms the equatorward TID propagation, which was obtained by the SADM‐GPS technique. A pair of magnetometers were used to infer E × B drift and an adequate agreement was found with Swarm satellites derived plasma density that enabled us to explain the behaviour of ionospheric irregularity during the main phase of the geomagnetic storm. Moreover, significant TEC enhancement (reaching ∼20%–105%) were captured by GPS arrays during the period of TID propagation. Nevertheless, the rate of change of TEC (ROT) and ROT index (ROTI) show wavy structures that reflect TID effects over ionospheric modulations during the post noon to evening hours of 17 March 2015. Key Points Multiple GPS arrays having a triangular orientation are potential mechanisms to observe traveling ionospheric disturbances (TID) propagation using Statistical Angle‐of‐Arrival and Doppler Method for GPS TIDs can be identified as a wavy quenches embedded in ionospheric irregularities The geomagnetic storm event of 17 March 2015 have a damping effect on ionospheric irregularities in East African longitude
ISSN:0048-6604
1944-799X
DOI:10.1029/2022RS007426