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Ionospheric–Thermospheric Responses to Geomagnetic Storms from Multi-Instrument Space Weather Data

Rasim Shahzad, Munawar Shah, M. Arslan Tariq, Andrés Calabia, Angela Melgarejo-Morales, Punyawi Jamjareegulgarn, Libo Liu

2023Remote Sensing26 citationsDOIOpen Access PDF

Abstract

We analyze vertical total electron content (vTEC) variations from the Global Navigation Satellite System (GNSS) at different latitudes in different continents of the world during the geomagnetic storms of June 2015, August 2018, and November 2021. The resulting ionospheric perturbations at the low and mid-latitudes are investigated in terms of the prompt penetration electric field (PPEF), the equatorial electrojet (EEJ), and the magnetic H component from INTERMAGNET stations near the equator. East and Southeast Asia, Russia, and Oceania exhibited positive vTEC disturbances, while South American stations showed negative vTEC disturbances during all the storms. We also analyzed the vTEC from the Swarm satellites and found similar results to the retrieved vTEC data during the June 2015 and August 2018 storms. Moreover, we observed that ionospheric plasma tended to increase rapidly during the local afternoon in the main phase of the storms and has the opposite behavior at nighttime. The equatorial ionization anomaly (EIA) crest expansion to higher latitudes is driven by PPEF during daytime at the main and recovery phases of the storms. The magnetic H component exhibits longitudinal behavior along with the EEJ enhancement near the magnetic equator.

Topics & Concepts

Geomagnetic stormSpace weatherIonosphereEquatorial electrojetEarth's magnetic fieldGeologyTotal electron contentEquatorLatitudeStormAtmospheric sciencesAnomaly (physics)ClimatologyEnvironmental scienceTECGeophysicsGeodesyPhysicsMagnetic fieldOceanographyQuantum mechanicsCondensed matter physicsIonosphere and magnetosphere dynamicsEarthquake Detection and AnalysisGNSS positioning and interference
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