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Change in Total Electron Content During the 26 December 2019 Solar Eclipse: Constraints From GNSS Observations and Comparison With SAMI3 Model Results

Batakrushna Senapati, J. D. Huba, Bhaskar Kundu, Vineet K. Gahalaut, Dibyashakti Panda, Saroj Mondal, J. K. Catherine

2020Journal of Geophysical Research Space Physics21 citationsDOI

Abstract

Abstract We report spatiotemporal variation in the total electron content (TEC) in ionosphere caused by the 26 December 2019 annular solar eclipse, seen over most of the Southeast Asia. Sparsely distributed network of the Global Navigation Satellite System (GNSS) sites located on the continental parts and on islands documented the transhemispheric coellipse changes in the ionospheric electron density. A significant depletion in TEC of ~6–8 TECU (1 TECU = 1 × 10 16 electrons m −2 ) is observed along the path of the eclipse shadow. Simulations using the SAMI3 model are consistent with the observations of TEC depletion. The model also predicted a magnetically conjugate region of marginal increased TEC of ~0.2–0.3 TECU around northern Japan and adjacent Pacific Ocean, which is also consistent with the ground‐based GNSS observations in that region.

Topics & Concepts

TECTotal electron contentGNSS applicationsSolar eclipseIonosphereSatelliteEclipseEnvironmental scienceAtmospheric sciencesGeologyPhysicsGeophysicsAstronomyIonosphere and magnetosphere dynamicsEarthquake Detection and AnalysisGeomagnetism and Paleomagnetism Studies
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