Severe L-band scintillation over low-to-mid latitudes caused by an extreme equatorial plasma bubble: joint observations from ground-based monitors and GOLD

The occurrence of plasma irregularities and ionospheric scintillation over the Caribbean region have been reported in previous studies, but a better understanding of the source and conditions leading to these events is still needed. In December 2021, three ground-based ionospheric scintillation and...

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Bibliographic Details
Published inEarth, planets, and space Vol. 75; no. 1; pp. 41 - 12
Main Authors Sousasantos, Jonas, Gomez Socola, Josemaria, Rodrigues, Fabiano S., Eastes, Richard W., Brum, Christiano G. M., Terra, Pedrina
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2023
Springer
Springer Nature B.V
SpringerOpen
Subjects
2. Aeronomy
Bubbles
Earth and Environmental Science
Earth Sciences
Environmental monitoring
Extreme Plasma Bubbles
F region
Geology
Geophysics/Geodesy
Gold
Ground-based observation
Instrumentation
Ionospheric conditions
Ionospheric electron content
Ionospheric electron density
Ionospheric irregularities
Ionospheric propagation
Irregularities
Low-to-mid latitude irregularities
Monitors
Observations
Perturbation
Plasma
Plasma bubbles
Scintillation
Severe L-band scintillation
Space weather
United States
Space weather
Extreme Plasma Bubbles
Severe L-band scintillation
Low-to-mid latitude irregularities
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Summary:The occurrence of plasma irregularities and ionospheric scintillation over the Caribbean region have been reported in previous studies, but a better understanding of the source and conditions leading to these events is still needed. In December 2021, three ground-based ionospheric scintillation and Total Electron Content monitors were installed at different locations over Puerto Rico to better understand the occurrence of ionospheric irregularities in the region and to quantify their impact on transionospheric signals. Here, the findings for an event that occurred on March 13–14, 2022 are reported. The measurements made by the ground-based instrumentation indicated that ionospheric irregularities and scintillation originated at low latitudes and propagated, subsequently, to mid-latitudes. Imaging of the ionospheric F-region over a wide range of latitudes provided by the GOLD mission confirmed, unequivocally, that the observed irregularities and the scintillation were indeed caused by extreme equatorial plasma bubbles, that is, bubbles that reach abnormally high apex heights. The joint ground- and space-based observations show that plasma bubbles reached apex heights exceeding 2600 km and magnetic dip latitudes beyond 28 ° . In addition to the identification of extreme plasma bubbles as the source of the ionospheric perturbations over low-to-mid latitudes, GOLD observations also provided experimental evidence of the background ionospheric conditions leading to the abnormally high rise of the plasma bubbles and to severe L-band scintillation. These conditions are in good agreement with the theoretical hypothesis previously proposed. Graphical Abstract
ISSN:1880-5981
1343-8832
1880-5981
DOI:10.1186/s40623-023-01797-5