Investigation of Ionospheric Scintillation using BeiDou during Geomagnetic and Non-geomagnetic Storm Conditions Over Pakistan

Hina Magsi, A. Hussain, Arslan Ahmed, Sonia, F. Chachar, Faiza
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Abstract

The amplitude and phase of the trans-ionospheric radio frequency (RF) signals can be influenced by the existence of electron density irregularities in the ionosphere. These irregularities may give rise to ionospheric scintillation phenomena which is characterized by rapid amplitude and phase variations in the received signals. The occurrence and severity of ionospheric scintillation is highly dependent on the geomagnetic storm, solar activity, time of the day and geographic location of the receiver and thus, poses a significant threat to the availability and accuracy of satellite-based navigation systems. This paper presents a detailed study on ionospheric scintillation using the Chinese BeiDou navigation system at the verge of low and mid latitude (Sukkur, Pakistan: Latitude 27.73° N, Longitude 68.82° 8 E). The variations and occurrence patterns of scintillation are studied in detail using BeiDou raw data for the year 2020. The diurnal, monthly, and seasonal variations were investigated during geomagnetic quiet and disturbed days. The result of this study shows that amplitude scintillation is most probable to arise at this region (Pakistan) as compared to phase scintillation. The detailed analysis of scintillation occurrence patterns indicates that scintillation is found to be more active in winter season with maximum scintillation events (S4 > 0.3) in the month of March. This initial study on occurrences of scintillation over Pakistan can be beneficial for better understanding the scintillation trends over Pakistan and can pave the way for conducting long term studies.
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利用北斗对巴基斯坦地磁和非地磁风暴条件下电离层闪烁的研究
电离层中电子密度不规则性的存在会影响跨电离层射频(RF)信号的振幅和相位。这些不规则性可能引起电离层闪烁现象,其特征是接收信号的振幅和相位迅速变化。电离层闪烁的发生和严重程度高度依赖于地磁风暴、太阳活动、一天中的时间和接收器的地理位置,因此对卫星导航系统的可用性和准确性构成重大威胁。本文利用中国北斗导航系统对低纬度和中纬度边缘地区(巴基斯坦苏库尔:纬27.73°N,经度68.82°8 E)的电离层闪烁进行了详细研究,并利用2020年的北斗原始数据详细研究了闪烁的变化和发生模式。研究了地磁平静日和扰动日的日、月、季变化。研究结果表明,与相位闪烁相比,振幅闪烁在该地区(巴基斯坦)最有可能出现。对闪烁发生模式的详细分析表明,闪烁在冬季更为活跃,最大闪烁事件发生在3月份(S4 > 0.3)。对巴基斯坦上空闪烁现象的初步研究有助于更好地了解巴基斯坦上空的闪烁趋势,并为进行长期研究铺平道路。
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