磁暴期间磁层能量流入及其分布

V. Degtyarev, G. Popov, S. Chudnenko
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引用次数: 0

摘要

考虑了磁暴强度极大时太阳风能量流入磁层及其在环流和极光电离层中的耗散。将1996 ~ 2014年期间Dst强度在-18 ~ -422 nT之间的磁暴进行分组。对每一组,用叠加历元分析法确定了太阳风对磁层的平均能量贡献以及随后的极光电离层能量耗散和圆电流特征。揭示了磁暴强度与太阳风进入磁层能量的非线性关系。探测到强度|Dst| > 200nt的磁暴异常行为。对结果进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Energy Inflow into the Magnetosphere and Its Distribution During Magnetic Storm
The energy inflow from the solar wind into the magnetosphere and its dissipation in the circular current and auroral ionosphere during maximums of magnetic storm intensity are considered. All magnetic storms with Dst intensities from –18 nT to –422 nT for the period from 1996 to 2014 were divided into groups. For each group, the mean contribution of energy from the solar wind to the magnetosphere and subsequent characteristics of the energy dissipation in the auroral ionosphere and circular current were determined by the superposed epoch analysis method. The nonlinearity of the dependence of the intensity of magnetic storms on the energy coming from the solar wind into the magnetosphere was revealed. Anomalous behavior of magnetic storms with intensity |Dst| > 200 nT was detected. A discussion of the results is given.
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