由SWARM卫星和CARISMA磁力计网络测量的4 - 12hz频率范围内的自然电磁振荡

Pub Date : 2023-09-30 DOI:10.12737/stp-93202314
Nadezda Yagova, Evgeny Fedorov, Vyacheslav Pilipenko, Nikolay Mazur
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引用次数: 0

摘要

我们研究了电离层上部和地球上4-12赫兹频率的磁场变化。研究了两颗SWARM卫星在标称Pc1范围高频边界附近和以上的相干振荡对地面的响应。我们使用CARISMA数据来分析地面脉动。电离层振荡主要记录在地磁纬度65°以上,即从极光区到极尖裂区。在距离卫星足迹1500至3000公里的极光和亚极光地面站记录了相同频率的振荡。从观测资料中得到的地球上的振荡幅度与电离层的振荡幅度之比RGI与入射到准实电离层的有限半径alfvsamn波束的计算值进行了比较。[Fedorov等人,2018]。RGI的径向分布取决于振荡频率和电离层参数的高度分布,电离层参数的高度分布主要受季节和地方时控制。RGI最可能的取值范围是10-3 ~ 10-1。在入射光束半径约几百公里处,从观测资料得到的RGI值与模式值一致。
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Natural electromagnetic oscillations in 4–12 Hz frequency range as measured by SWARM satellites and CARISMA magnetometer network
We examine magnetic field variations at 4–12 Hz frequencies in the upper ionosphere and on Earth. The ground response to the coherent oscillations at two SWARM satellites near and above the high frequency boundary of the nominal Pc1 range is studied. We use CARISMA data to analyze ground pulsations. Ionospheric oscillations are predominantly registered at geomagnetic latitudes above 65°, i. e. from the auroral zone to the polar cusp-cleft region. The oscillations at the same frequencies are recorded at auroral and subauroral ground stations at distances from 1500 to 3000 km from satellite footprint. Ratio RGI of the oscillation amplitude on Earth to that in the ionosphere retrieved from the observed data is compared to the values calculated for a finite radius Alfvén beam incident onto a quasi-real ionosphere. [Fedorov et al., 2018]. Radial distribution of RGI depends on the oscillation frequency and the altitude distribution of ionospheric parameters controlled mostly by season and local time. The most probable values of RGI range from 10–3 to 10–1. The RGI values obtained from the observed data agree with model ones at incident beam radius of about several hundred kilometers.
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