IonosphericTotal Electron Content Changes during the 15 February 2018 and 30 April 2022 Solar Eclipses over South America and Antarctica

Valdés-Abreu, Juan Carlos; Díaz, Marcos; Bravo, Manuel; Stable-Sánchez, Yohadne

doi:10.3390/rs15194810

Remote Sensing

2023

DOI: 10.3390/rs15194810

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IonosphericTotal Electron Content Changes during the 15 February 2018 and 30 April 2022 Solar Eclipses over South America and Antarctica

Juan Carlos Valdés-Abreu,

Marcos Díaz,

Manuel Bravo

et al.

Abstract: This is one of the first papers to study the ionospheric effects of two solar eclipses that occurred in South America and Antarctica under geomagnetic activity in different seasons (summer and autumn) and their impact on the equatorial ionization anomaly (EIA). The changes in total electron content (TEC) during the 15 February 2018 and 30 April 2022 partial solar eclipses will be analyzed. The study is based on more than 390 GPS stations, Swarm-A, and DMSP F18 satellite measurements, such as TEC, electron dens… Show more

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2024

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Cited by 3 publications

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Study of the response of the upper atmosphere during the annular solar eclipse on October 14, 2023

Das,

Maity,

Nanda

et al. 2024

Advances in Space Research

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Study of the response of the upper atmosphere during the annular solar eclipse on October 14, 2023

Das,

Maity,

Nanda

et al. 2024

Advances in Space Research

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Multi-Instrument Observations of the Ionospheric Response Caused by the 8 April 2024 Total Solar Eclipse

Zhang,

Zhang

et al. 2024

Remote Sensing

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This paper investigates ionospheric response characteristics from multiple perspectives based on globally distributed GNSS data and products, ionosonde data, FORMOSAT-7/COSMIC-2 occultation data, and Swarm satellite observations caused by the total solar eclipse of 8 April 2024 across North and Central America. The results show that both GNSS-derived TEC products have detected the ionospheric TEC degradation triggered by the total solar eclipse, with the maximum degradation exceeding 10 TECU. The TEC data from nine GNSS stations in the path of the maximum eclipse reveal that the intensity of ionospheric TEC degradation is related to the spatial location, with the maximum degradation value of the ionospheric TEC being about 14~23 min behind the moment of the maximum eclipse. Additionally, a negative anomaly of foF2 with a maximum of more than 2.7 MHz is detected by ionosonde. In the eclipse region, NmF2 and hmF2 show trends of decrease and increase, with percentages of variation of 40~70% and 4~16%, respectively. The Ne profile of the Swarm-A satellite is significantly lower than the reference value during the eclipse period, with the maximum negative anomaly value reaching 11.2 × 105 el/cm3, and it failed to show the equatorial ionization anomaly.

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Ionosphere Monitoring with Remote Sensing Vol II

Giannattasio

2024

Remote Sensing

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IonosphericTotal Electron Content Changes during the 15 February 2018 and 30 April 2022 Solar Eclipses over South America and Antarctica

Cited by 3 publications

References 77 publications

Study of the response of the upper atmosphere during the annular solar eclipse on October 14, 2023

Study of the response of the upper atmosphere during the annular solar eclipse on October 14, 2023

Multi-Instrument Observations of the Ionospheric Response Caused by the 8 April 2024 Total Solar Eclipse

Ionosphere Monitoring with Remote Sensing Vol II

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