1. Global ionospheric scintillations revealed by GPS radio occultation data with FY3C satellite before midnight during the March 2015 storm.
- Author
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Wang, Guojun, Shi, Jiankui, Bai, Weihua, Galkin, Ivan, Wang, Zeng, and Sun, Yueqian
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IONOSPHERE , *MAGNETIC storms , *SHORTWAVE radio , *ARTIFICIAL satellites in navigation , *ELECTRIC fields , *LONGITUDE , *RADIOS - Abstract
Highlights • The global ionospheric scintillations on 17 March 2015 were investigated by using RO data from FY3C. • The strong scintillations were triggered near 160°E longitudes in MP, and almost inhibited in all longitudes in RP. • The PPEF and DDEF are main factors to drive the observed results in MP and RP, respectively. Abstract Global observations of S4 amplitude scintillation index by the GPS Occultation Sounder (GNOS) on FengYun-3 C (FY3C) satellite reveal global dynamic patterns of a strong pre-midnight scintillations in F-region of the ionosphere during the St. Patrick's Day geomagnetic super storm of 17–19 March 2015. The observed strong scintillations mainly occurred in the low latitudes, caused by equatorial plasma bubbles. During the main storm phase (March 17), the scintillations were first triggered in the New Zealand sector near 160°E longitudes, extending beyond 40°S dip latitude. They were also enhanced in the Indian sector, but significantly suppressed in East Asia near 120°E longitude and in Africa around 30°E longitude. During the initial recovery phase (March 18–19), the global scintillations were seldom observed in GNOS data. During the later recovery phase (after March 19), the scintillations recovered to the pre-storm level in Indian, African, and American sectors, but not in East Asian and any of Pacific sectors. These results closely correlate with observations of the density depletion structures by the Communication/Navigation Outage Forecasting System (C/NOFS) satellite, and ground-based instruments. Such consistency indicates reliability of our scintillation sensing approach even in a case-by-case comparison study. The prompt penetration electric field and disturbance dynamo electric field are suggested as the main factors that control the enhancement and inhibition of the scintillations during the storm, respectively. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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