Validation of COSMIC-2-Derived Ionospheric Peak Parameters Using Measurements of Ionosondes

Shuangshuang Shi,Jiaqi Shi,Suqin Wu,Fucheng Song,Wang Li,Kefei Zhang,Peng Sun

doi:10.3390/rs13214238

Shuangshuang Shi, Jiaqi Shi + Show 5 more

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https://doi.org/10.3390/rs13214238

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Abstract

Although numerous validations for the ionospheric peak parameters values (IPPVs) obtained from the Constellation Observing System for Meteorology, Ionosphere, and Climate (COSMIC) have been conducted using ionosonde measurements as a reference, comprehensive evaluations of the quality of the COSMIC-2 data are still undesirable, especially under geomagnetic storm conditions. In this study, the IPPVs measured by ionosondes (Ramey, Boa Vista, Sao Luis, Jicamarca, Cachoeira Paulista, and Santa Maria) during the period 1 October 2019 to 31 August 2021, are used to evaluate the quality of COSMIC-2 data over low-latitude regions of the Americas. The results show that the NmF2 (hmF2) from COSMIC-2 agrees well with the ionosonde measurements, and the correlation coefficients for the two sets of data at the above six stations are 0.93 (0.84), 0.91 (0.85), 0.91 (0.88), 0.88 (0.79), 0.96 (0.83), and 0.96 (0.87), respectively. The data quality of COSMIC-2 derived NmF2 is largely dependent on geomagnetic latitude. It was also found that NmF2 derived from COSMIC-2 tends to be underestimated over the stations in Boa Vista and Cachoeira Paulista, which are close to the crests of the equatorial ionization anomaly (EIA), whilst that of the other stations is slightly overestimated. A comparison between COSMIC-measured and ionosonde-derived hmF2 indicates that the former is systematically higher than the latter. In addition, the differences in the two NmF2 datasets derived from COSMIC-2 and ionosonde measurements at night are generally smaller than those of daytime, when the EIA is well developed, and vice versa for hmF2, whose RMSE is slightly smaller during daytime (with the exception of Ramey). Furthermore, NmF2 obtained from COSMIC-2 is shown to perform best in summer at Ramey, Boa Vista, Sao Luis, and Santa Maria, best in winter at Jicamarca and Cachoeira Paulista. Finally, the COSMIC-2 electron densities capture the ionospheric dynamic enhancements under a moderate geomagnetic storm condition very well.

Highlights

The observations from the aforementioned ionosondes over low-latitude regions of the Americas were used to validate the quality of the ionospheric peak parameters values (IPPVs) derived from the COSMIC-2 constellation under quiet and disturbed solar-geomagnetic conditions
Approximately 4000 Electron density profiles (EDPs) can be collected by the COSMIC-2 constellation daily, and these profiles play an important role in exploring ionospheric dynamic evolution over low and middle latitudes
When the COSMIC-2 radio occultation (RO) EDPs are retrieved by the Abel inversion under the assumption of spherical symmetry, the total electron content (TEC) horizontal gradient along Global positioning system (GPS) rays caused by the equatorial ionization anomaly (EIA)

Summary

Introduction

System for Meteorology, Ionosphere, and Climate (COSMIC-1) constellation was launched into a circular low-earth orbit at the Vandenberg Air Force Base on 15 April 2006. It has been widely applied in many scientific research areas, such as meteorology, climate, ionosphere, Remote Sens. Given the success of COSMIC-1, a follow-up mission, COSMIC-2, was successfully launched into a low-inclination orbit by the United States and Taiwan, China on 25 June 2019. Compared with COSMIC-1, COSMIC-2 was expected to provide more atmospheric and ionospheric RO profiles over middle and low latitude regions

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