Topside Low-Latitude Ionospheric Response to the 10–11 May 2024 Super Geomagnetic Storm as Observed by Swarm: The Strongest Storm-Time Super-Fountain During the Swarm Era?

IF 2.9 2区地球科学 Q2 ASTRONOMY & ASTROPHYSICS Journal of Geophysical Research: Space Physics Pub Date : 2025-03-03 DOI:10.1029/2024JA033340

Chinmaya Nayak, Stephan Buchert, Erdal Yiğit, M. Ankita, Satyavir Singh, S. Tulasi Ram, A. P. Dimri

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Abstract

The current study explores how the topside equatorial and low-latitude ionosphere responded to the super geomagnetic storm on 10–11 May 2024, using in situ data from the Swarm constellation. During the storm's main phase, enhancements in the EIA (equatorial ionization anomaly) were observed, forming strong super-fountains. The EIAs were extended toward latitudes beyond $\pm 30 °$ of the magnetic equator, with the crests of the EIAs being shifted to $\sim 25 °$ of the magnetic equator on both hemispheres during the main phase of the storm. Swarm-A observed the strongest storm-time super-fountain during its entire age (2013-present) with nearly $500 %$ increase in the crest density compared to the quiet-time conditions. During the recovery phase, the EIA was suppressed entirely, and density crests were observed over the magnetic equator, and troughs were observed at locations around $\sim 10 °$ – $15 °$ of magnetic dip latitude.

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群观测到的2024年5月10-11日超级地磁风暴对上层低纬度电离层的响应：群时代最强风暴时间超级喷泉？

目前的研究利用Swarm星座的原位数据，探讨了赤道上层和低纬度电离层如何响应2024年5月10日至11日的超级地磁风暴。在风暴的主要阶段，观测到赤道电离异常（EIA）的增强，形成了强大的超级喷泉。在风暴的主阶段，环境影响区向磁赤道±30°$\pm 30{}^{\circ}$以外的纬度延伸，其波峰在两半球移至磁赤道±25°${\sim} 25{}^{\circ}$。Swarm-A观测到整个时代（2013年至今）最强的风暴时期超级喷泉，与平静时期相比，峰值密度增加了近500%。在恢复阶段，EIA完全被抑制，在磁赤道附近观测到密度波峰，在磁倾角约10°${\sim} 10{}^{\circ}$ ~ 15°$15{}^{\circ}$附近观测到波谷。

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