利用多仪器观测 2023 年 4 月地磁暴期间亚洲扇区的电离层行为和特征

IF 1.8 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
Linlin Li , Shuanggen Jin
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引用次数: 0

摘要

地磁暴经常影响卫星导航、通信和卫星轨道。监测和了解电离层扰动和对地磁暴的反应至关重要。然而,人们尚未广泛研究电离层对各种地磁暴的详细反应和物理机制。本文利用全球导航卫星系统(GNSS)、电离层探测仪和其他卫星等多仪器观测数据,深入研究了2023年4月亚洲扇区磁暴之后的电离层变化行为和特征。从北斗地球静止轨道(GEO)卫星、全球定位系统(GPS)和全球轨道导航卫星系统(GLONASS)观测到大尺度移动电离层扰动(LSTIDs)。LSTID 以 760-1300 米/秒的速度从高纬度地区向低纬度地区传播,周期约为 40 分钟。赤道传播的 LSTID 由日冕物质抛射(CME)产生,发生在 2023 年 4 月,极光区周期性地输入能量。向极地传播的 LSTID 的速度约为 600-750 米/秒,周期也相似。中性风也影响了电离层的响应特征。风暴期间[O]/[N2]比值下降,导致形成负风暴相。发现了最大的垂直电子总含量(VTEC),TEC的增强区域主要集中在地理纬度内±20°之间。还观测到赤道电离层异常(EIA),这可能是受电场的影响。随着时间的推移,EIA 南侧的峰值逐渐消失。同时,电离层最大电子密度的高度上升,电子密度下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ionospheric behaviors and characteristics in Asian sector during the April 2023 geomagnetic storm with multi-instruments observations

Geomagnetic storms frequently affect satellite navigation, communication and satellite orbits. Monitoring and understanding the ionospheric disturbances and responses to geomagnetic storms are crucial. The detailed ionospheric responses and physical mechanisms to various geomagnetic storms, however, have not yet been extensively studied. In this paper, the ionospheric variation behaviors and features following the April 2023 magnetic storm along the Asian sector are thoroughly studied using multi-instrument observation data, including the Global Navigation Satellite System (GNSS), ionosonde, and other satellites. Large-scale Traveling Ionospheric disturbances (LSTIDs) are observed from BeiDou Geostationary Earth Orbit (GEO) satellites, GPS and GLONASS. LSTIDs traveled with a speed of 760–1300 m/s from high latitude region to low latitude region with a period of about 40 min. The equatorial propagating LSTIDs were generated by coronal mass ejections (CMEs), which occurred in April 2023 with periodic energy input from the auroral area. The poleward LSTIDs are also observed with a velocity of approximately 600–750 m/s and the period is similar. Neutral wind also influenced the characteristics of the ionospheric response. The [O]/[N2] ratio declined during the storm, which led to the formation of the negative storm phases. The largest vertical total electron content (VTEC) is found, and the strengthened region of TEC is mainly centered between ± 20° within geographical latitude. Equatorial Ionospheric Anomaly (EIA) is also observed, which is probably influenced by the electric field. As the time goes on, the peak on the south side of the EIA is disappearing. Meanwhile, the height of the ionospheric maximum electron density rises, and the electron density falls.

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来源期刊
Journal of Atmospheric and Solar-Terrestrial Physics
Journal of Atmospheric and Solar-Terrestrial Physics 地学-地球化学与地球物理
CiteScore
4.10
自引率
5.30%
发文量
95
审稿时长
6 months
期刊介绍: The Journal of Atmospheric and Solar-Terrestrial Physics (JASTP) is an international journal concerned with the inter-disciplinary science of the Earth''s atmospheric and space environment, especially the highly varied and highly variable physical phenomena that occur in this natural laboratory and the processes that couple them. The journal covers the physical processes operating in the troposphere, stratosphere, mesosphere, thermosphere, ionosphere, magnetosphere, the Sun, interplanetary medium, and heliosphere. Phenomena occurring in other "spheres", solar influences on climate, and supporting laboratory measurements are also considered. The journal deals especially with the coupling between the different regions. Solar flares, coronal mass ejections, and other energetic events on the Sun create interesting and important perturbations in the near-Earth space environment. The physics of such "space weather" is central to the Journal of Atmospheric and Solar-Terrestrial Physics and the journal welcomes papers that lead in the direction of a predictive understanding of the coupled system. Regarding the upper atmosphere, the subjects of aeronomy, geomagnetism and geoelectricity, auroral phenomena, radio wave propagation, and plasma instabilities, are examples within the broad field of solar-terrestrial physics which emphasise the energy exchange between the solar wind, the magnetospheric and ionospheric plasmas, and the neutral gas. In the lower atmosphere, topics covered range from mesoscale to global scale dynamics, to atmospheric electricity, lightning and its effects, and to anthropogenic changes.
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