极光椭圆离子沉淀中重联特征的研究

IF 2.6 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
T. Sotirelis, P. T. Newell, C. Meng
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引用次数: 0

摘要

在新连接的磁场线上的质子和电子表现出飞行时间效应,这种效应已经在白天和晚上,在高海拔和低海拔进行了观察和建模。这些重联信号的特征是质子能量分布被切断到低能。在LEO中,截止能量表现出随纬度的色散,通常在白天的尖端看到,在夜晚被称为速度分散离子结构。在这里,开发了一种自动算法,用于检测沉淀离子能谱中的这种低能量截止点,而不考虑任何可能的纬度色散。LEC离子光谱的出现是在DMSP观测的一年里绘制的。这个映射有四个不同的组件,其中两个是通过重连接产生的。在日面,由于日面重联,LEC离子光谱主要出现在尖峰、地幔和开放的llbl降水中,能量主要为亚kev。在夜侧,在椭圆的极向边缘可以看到超kev能量的LEC离子光谱(通常随纬度分散),这表明磁尾重联。在椭圆形的赤道边缘的黄昏一侧,可以看到另一个超kev种群,这可能表明各向同性的开始。最后,在整个极光椭圆中可以看到亚kev群,这被认为是由从相反半球加速流出的离子组成的。夜侧重联信号的存在是由磁场活动水平调制的。电离层流速的年代叠加分析显示,当重联信号存在时,流动通过开闭边界,当重联信号存在时,白天侧的上升流动增强。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Survey of reconnection signatures in auroral oval ion precipitation
The protons and electrons on newly reconnected field lines exhibit time-of-flight effects that have been observed and modelled on both the dayside and nightside, at both high and low altitudes. These reconnection signatures feature proton energy distributions that are cutoff toward low energy. In LEO the cutoff energy exhibits a dispersion with latitude, typically seen in the cusp on the dayside, and referred to as velocity dispersed ion structures on the nightside. Here, an automated algorithm for detecting such low-energy cutoffs in the energy spectra of precipitating ions was developed, without regard for any possible dispersion with latitude. The occurrences of LEC ion spectra were mapped over a year of DMSP observations. There are four distinct components to this map, two of which are produced by reconnection. On the dayside LEC ion spectra are seen in cusp, mantle, and open-LLBL precipitation, predominantly at sub-keV energies, as the result of dayside reconnection. On the nightside LEC ion spectra are seen at the poleward edge of the oval at supra-keV energies (usually dispersed with latitude), that indicate magnetotail reconnection. There is another supra-keV population seen on the dusk side at the equatorward edge of the oval, possibly indicating the onset of isotropy. Finally, there is a sub-keV population seen throughout the auroral oval that is thought to consist of ions accelerated out of the opposing hemisphere. The presence of the nightside reconnection signature is modulated by magnetic activity level. Superposed epoch analyses of the ionospheric flow velocity reveal flow through the open–closed boundary when reconnection signatures are present, and enhanced upflow on the dayside when reconnection signatures are present.
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来源期刊
Frontiers in Astronomy and Space Sciences
Frontiers in Astronomy and Space Sciences ASTRONOMY & ASTROPHYSICS-
CiteScore
3.40
自引率
13.30%
发文量
363
审稿时长
14 weeks
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