HF Radar Observations and Modeling of the Impact of the 8 April 2024 Total Solar Eclipse on the Ionosphere‐Thermosphere System

B. S. R. Kunduri; J. B. H. Baker; J. M. Ruohoniemi; E. G. Thomas; J. D. Huba; D. J. Emmons; D. R. Themens; K. T. Sterne; G. Farinas Perez; W. A. Bristow; S. G. Shepherd; J. M. Holmes; E. V. Dao; A. T. Chartier; G. W. Perry; K. Pandey

doi:10.1029/2024GL112484

Geophysical Research Letters (Dec 2024)

HF Radar Observations and Modeling of the Impact of the 8 April 2024 Total Solar Eclipse on the Ionosphere‐Thermosphere System

B. S. R. Kunduri,
J. B. H. Baker,
J. M. Ruohoniemi,
E. G. Thomas,
J. D. Huba,
D. J. Emmons,
D. R. Themens,
K. T. Sterne,
G. Farinas Perez,
W. A. Bristow,
S. G. Shepherd,
J. M. Holmes,
E. V. Dao,
A. T. Chartier,
G. W. Perry,
K. Pandey

Affiliations

B. S. R. Kunduri: Bradley Department of Electrical and Computer Engineering Blacksburg VA USA
J. B. H. Baker: Bradley Department of Electrical and Computer Engineering Blacksburg VA USA
J. M. Ruohoniemi: Bradley Department of Electrical and Computer Engineering Blacksburg VA USA
E. G. Thomas: Thayer School of Engineering Dartmouth College Hanover NH USA
J. D. Huba: Syntek Technologies Fairfax VA USA
D. J. Emmons: Department of Engineering Physics Air Force Institute of Technology Wright‐Patterson AFB OH USA
D. R. Themens: School of Engineering SERENE University of Birmingham Birmingham UK
K. T. Sterne: Bradley Department of Electrical and Computer Engineering Blacksburg VA USA
G. Farinas Perez: Bradley Department of Electrical and Computer Engineering Blacksburg VA USA
W. A. Bristow: Pennsylvania State University University Park PA USA
S. G. Shepherd: Thayer School of Engineering Dartmouth College Hanover NH USA
J. M. Holmes: Space Vehicles Directorate Air Force Research Laboratory Kirtland AFB NM USA
E. V. Dao: Space Vehicles Directorate Air Force Research Laboratory Kirtland AFB NM USA
A. T. Chartier: Johns Hopkins Applied Physics Lab Laurel MD USA
G. W. Perry: Center for Solar‐Terrestrial Research New Jersey Institute of Technology Newark NJ USA
K. Pandey: Center for Solar‐Terrestrial Research New Jersey Institute of Technology Newark NJ USA

DOI: https://doi.org/10.1029/2024GL112484
Journal volume & issue: Vol. 51, no. 24
pp. n/a – n/a

Abstract

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Abstract The path of totality of the 8 April 2024 solar eclipse traversed the fields‐of‐view of four US SuperDARN radars. This rare scenario provided an excellent opportunity to monitor the large‐scale ionospheric response to the eclipse. In this study, we present observations made by the Blackstone (BKS) SuperDARN radar and a Digisonde during the eclipse. Two striking effects were observed by the BKS radar: (a) the Doppler velocities associated with ground scatter coalesced into a pattern clearly organized by the line of totality, with a reversal in sign across this line, and, (b) a delay of ∼45 min between time of maximum obscuration and maximum effect on the skip distance. The skip distance estimated using a SAMI3 simulation of the eclipse did not however capture the asymmetric time‐delay. These observations suggest that the neutral atmosphere plays an important role in controlling ionospheric plasma dynamics, which were missing in SAMI3 simulations.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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