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Dr. Mohamed Ahmed Ahmed Freshah :: Publications:

Title:
Ionospheric disturbances detected during a typhoon based on GNSS phase observations: a case study for typhoon Mangkhut over Hong Kong
Authors: Jun Chen, XiaohongZhang, Xiaodong Ren, Jincheng Zhang, Mohamed Freeshah, Zhibo Zhao
Year: 2020
Keywords: Ionosphere, Typhoon Mangkhut, Ionospheric disturbances, GNSS
Journal: Advances in Space Research
Volume: 66
Issue: 7
Pages: 1743-1753
Publisher: Elsevier
Local/International: International
Paper Link:
Full paper Not Available
Supplementary materials Not Available
Abstract:

outhern China is the region often affected by typhoons which have a series impact on human beings. In this study, ionospheric disturbances possibly excited by typhoon Mangkhut in September 2018 have been investigated for the first time, by applying the Slant Total Electron Content (STEC) sequences derived from phase observations collected from Continuously Operating Reference GPS Receiver Stations located in Hong Kong (HK-CORS). Savitzky-Golay smoothing filter is employed to de-trend STEC observations, and the S transform is used to convert time domain to frequency domain for ionospheric disturbances detection. Since most significant ionospheric disturbances occurred at day time for autumn/winter and at nighttime for spring/summer, we selected nighttime GPS observations to demonstrate that the ionospheric disturbances might occur during the period of typhoon Mangkhut. On the other hand, some IGS stations far away from the typhoon are selected and used to verify whether the ionospheric disturbances were induced by typhoon Mangkhut. The results show that there are obvious ionospheric disturbances with a distance of about 1050 and 230 km away from the typhoon eye before and after typhoon landfall, which is related to the power of the typhoon. Meanwhile, the disturbances detected from the de-trended STEC (dSTEC) sequences for the same satellites’ observations collected from other stations located in Hong Kong occurred nearly simultaneously. The disturbance achieves its maximum with a distance about 1000 km away from the typhoon eye and then decreased. It will disappear with the distance is about 2000 km away from the typhoon eye. This indicates that in the absence of the geomagnetic and solar activities, the typhoon can cause the ionospheric disturbances.

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