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Impact of the May 2024 Extreme Geomagnetic Storm on the Ionosphere and GNSS Positioning

Ekaterina Danilchuk, Yury Yasyukevich, Артем Веснин, Aleksandr Klyusilov, Baocheng Zhang

2025Remote Sensing25 citationsDOIOpen Access PDF

Abstract

Global navigation satellite systems provide important data sets that can be used to study the influence of various space weather factors. We analyzed the effects of the main phase of the May 2024 extreme geomagnetic storm on the ionosphere and GPS kinematic precise point positioning (PPP). ROTI and global ionospheric maps showed the ionospheric dynamics. The auroral oval expanded up to low latitudes: up to 30°N in the American sector and up to 45°N in the European–Asian sector during the main phase of the geomagnetic storm. The ROTI peaked at 2 TECU/min, which is four times as much against the background. The equatorial anomaly crest intensified considerably (up to 200 TECU) and shifted poleward in the American sector. The counter-propagation finally caused the equatorial anomaly to cross the auroral oval boundary. The ROTI correlated with errors in the kinematic PPP. Positioning errors increased 1.5–5 times at the boundary of the auroral oval. Increased positioning errors propagated according to the shift of the auroral oval boundary. The geomagnetic storm significantly affected the positioning and the ionosphere, threatening various applications based on navigation and communication.

Topics & Concepts

GNSS applicationsIonosphereGeomagnetic stormGeodesyEarth's magnetic fieldGeologyRemote sensingGlobal Positioning SystemEnvironmental scienceMeteorologyGeophysicsComputer scienceGeographyTelecommunicationsPhysicsMagnetic fieldQuantum mechanicsIonosphere and magnetosphere dynamicsEarthquake Detection and AnalysisGNSS positioning and interference