L. C. A. Resende, Y. Zhu, A. M. Santos, R. A. J. Chagas, C. M. Denardini, C. Arras, L. A. Da Silva, P. A. B. Nogueira, S. S. Chen, V. F. Andrioli, J. Moro, J. R. Costa, H. Li, C. Wang, Z. Liu
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引用次数: 0
摘要
Digisonde 数据显示,在 2024 年 5 月 11 日极端磁暴的主要阶段,位于南美洲磁异常 (SAMA)内的一个低纬度站点 Cachoeira Paulista(CXP,南纬 22.7°,西经 45°,倾角 ∼35°)上空的夜间低层电离层表现奇特。观测数据显示,E 区在日落后出现在高空,这出乎意料。由于电场受到干扰,它依次进行了不寻常的下降运动。形成夜间 E 层的额外电离是由于低能量(30 千伏安)粒子的沉淀(EPP)。此外,还同时出现了昼间尖顶型 E 层(Esc),而文献中从未报道过在这样的时段出现这种现象。因此,研究结果进一步表明,EPP 可能引起了热大气层的振荡,形成了通常在白天出现的埃斯层。因此,这项研究表明,在这次磁暴期间,不同的机制共同作用,在日落后在 SAMA 地区形成了白天的电离层,这一点已得到观测数据和模拟的证实。
Nocturnal Sporadic Cusp-Type Layer (Esc) Resulting From Anomalous Excess Ionization Over the SAMA Region During the Extreme Magnetic Storm on 11 May 2024
Digisonde data showed a peculiar behavior in the nighttime lower ionosphere over Cachoeira Paulista (CXP, 22.7°S, 45°W, dip ∼35°), a low-latitude station located inside the South American Magnetic Anomaly (SAMA) during the main phase of the extreme magnetic storm on 11 May 2024. The E region appeared in observational data at high altitudes after sunset, which is unexpected. In sequence, it performed an unusual descending movement due to the disturbed electric field. The extra ionization responsible for forming the nocturnal E layer is due to the precipitation (EPP) of low energic (<30 keV) particles. Moreover, a diurnal cusp-type Es layer (Esc) appeared simultaneously, which has never been reported in the literature at such hours. Thus, the results further suggest that the EPP may have caused an oscillation in the thermosphere, forming the Esc usually seen in the daytime. Therefore, this study shows the different mechanisms acting together during this magnetic storm, creating a daytime ionosphere after sunset over the SAMA region, as confirmed by observational data and simulations.
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