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Large-Scale Ionospheric Irregularities Detected by Ionosonde and GNSS Receiver Network

Chun-Hua Jiang, Lehui Wei, Guobin Yang, Ercha Aa, Ting Lan, Tongxin Liu, Jing Liu‐Zeng, Zhengyu Zhao

2020IEEE Geoscience and Remote Sensing Letters18 citationsDOI

Abstract

Large-scale ionospheric irregularities, which occurred on September 8, 2017, were detected by the ionosonde and the Global Navigation Satellite System (GNSS) receiver network in this letter. The Wuhan ionospheric sounding system (WISS), deployed at Puer (PUR, 22.7°N, 101.05°E), Leshan (LSH, 29.6°N, 103.7°E), and Zhangye (ZHY, 39.4°N, 100.13°E), detected these large-scale ionospheric irregularities. The 2-D maps of the rate of the GNSS total electron content (TEC) index (ROTI) further confirmed that the large-scale ionospheric irregularities can cover a broad area (from the equator to middle latitude, ~80°E to ~120°E, ~20°N to ~45°N). The ionospheric variation recorded by the WISS shows that the large-scale ionospheric irregularities were driven by the super eastward electric field, which was formed by the eastward prompt penetration electric field during a storm superimposed on the normal prereversal enhancement during the postsunset hours. Moreover, observations by the WISS show the higher the latitudes at which the ionospheric irregularities/spread F occurred, the shorter the duration time.

Topics & Concepts

IonosondeIonosphereGNSS applicationsGeologyTECGeodesyDepth soundingTotal electron contentRemote sensingGeophysicsSatelliteElectron densityPhysicsPlasmaAstronomyQuantum mechanicsOceanographyIonosphere and magnetosphere dynamicsGNSS positioning and interferenceEarthquake Detection and Analysis
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