Pole-To-Pole Ionospheric Disturbances Due To Solar Flares, During Low Solar Activity

IF 2.6 2区地球科学 Q2 ASTRONOMY & ASTROPHYSICS Journal of Geophysical Research: Space Physics Pub Date : 2024-07-26 DOI:10.1029/2024JA032597

P. R. Fagundes, V. G. Pillat, A. Tardelli, M. T. A. H. Muella

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Abstract

There are growing concerns about the effect of solar flares on the ionosphere, mainly due to possible deterioration or damage to our communication and navigation satellite systems. On 3 July 2021, and 28 October 2021, there were solar flares (SFs) classified as X1.59 and X1.0, respectively. These two SFs were the only ones of X-class that occurred during the last low solar activity (LSA:2018–2021). Data from magnetometers and Global Positioning System (GPS)—Total Electron Content (TEC) are used to investigate the spatial-temporal electrodynamics of the ionosphere from pole-to-pole in the American sector. Employing ∆H and vertical TEC, along with the ROT (rate of change of VTEC) parameter. Rapidly ∆H disturbances closely follow the X-ray variation and the ∆H valleys and peaks are well-synchronized during the SFs, indicating that they are linked. Major disturbances in the ∆H are noticed in the mid-low-equatorial latitudes. However, minor disturbances were seen at high latitudes. Also, |ROT| is a good indicator of the electron density changes during the SFs, especially when the X-ray intensity rises to the peak.

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低太阳活动期间太阳耀斑造成的极对极电离层扰动

人们越来越关注太阳耀斑对电离层的影响，这主要是因为它可能会恶化或损坏我们的通信和导航卫星系统。2021 年 7 月 3 日和 2021 年 10 月 28 日分别发生了 X1.59 和 X1.0 级太阳耀斑。这两个太阳耀斑是上一次低太阳活动（LSA:2018-2021）期间发生的唯一 X 级太阳耀斑。利用磁强计和全球定位系统（GPS）-总电子含量（TEC）数据研究了美国扇区电离层从极点到极点的时空电动力学。利用 ∆H 和垂直 TEC 以及 ROT（VTEC 变化率）参数。快速的 ∆H 扰动与 X 射线变化密切相关，而且 ∆H 波谷和波峰在 SFs 期间非常同步，这表明它们之间存在联系。∆H 的主要扰动出现在中低赤道纬度地区。然而，高纬度地区出现了轻微的扰动。此外，|ROT|也是SF期间电子密度变化的一个很好的指标，尤其是当X射线强度上升到峰值时。

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