范艾伦辐射带高能粒子动力学的经验模式

Yuhan Liu
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引用次数: 0

摘要

范艾伦辐射带由被困在地球磁场中的百万电子伏特粒子组成,主要是低海拔的质子和高海拔的电子。由于特定类型的日球层结构引起的各种物理过程,这些同心圆的环状辐射带不断变化。辐射对宇航员和航天器系统构成威胁。了解这些在整个宇宙中运行的过程可以帮助设计未来的太空任务以及了解宇宙。从辐射带风暴探测任务(RBSP任务)的最后三个月收集的数据被检查辐射带的动态模式和趋势及其与太阳活动的关系。数据表明,辐射带中高能粒子的动力学模式与太阳活动的变化密切相关。当太阳磁场减弱时,来自深空的宇宙射线能够携带更多的高能粒子进入太阳系。外带在平均持续27天的周期中显示出电子能量模式,对应于一个太阳旋转所花费的时间。2019年7月19日,辐射带突然向外移动,很可能是由于两个范艾伦探测器中的一个关闭造成的,因为探测器与辐射带的相对位置发生了变化。8月27日至28日到达的两股太阳风流导致了8月28日的“dropout”事件,这是由于太阳风流与磁层的接触推动了磁层边界,使移动边界外的粒子逃逸到太空中。从9月1日开始,一个正极性的日冕空穴高速流(CH HSS)对辐射带的9月电子再充能过程起了重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Empirical Patterns of High-Energy Particle Dynamics of the Van Allen Radiation Belts
The Van Allen radiation belts consist of megaelectron volt particles trapped in the Earth’s magnetic field mainly with protons at low altitudes and electrons at high altitudes. These concentric, donut-shaped radiation belts are constantly changing due to a variety of physical processes caused by specific types of heliospheric structure. The radiation poses risks for astronauts and spacecraft systems. The understanding of these processes that operate across the universe can help with designs of future space missions as well as the understanding of the universe. The data gathered from the last three months of the Radiation Belt Storm Probes mission (RBSP mission) is examined for patterns and trends in the dynamics of the radiation belts and their relationships with solar activities. From the data, it is shown that the patterns of the high-energy particle dynamics in the belts follow the changes in solar activity. When the Sun’s magnetic field weakens, cosmic rays from deep space are able to carry an increased flux of energetic particles into the solar system. The outer belt exhibits a pattern of electron energization during cycles lasting an average of 27 days, corresponding to the time taken for one solar rotation. The sudden outward shift of the belts on July 19th, 2019 was most likely caused by the shutdown of one of the two Van Allen probes, as the relative position of the probe to the belts changed. Two solar wind streams that arrived from August 27th to the 28th caused the “dropout” event on August 28th, as the contact between the solar wind streams and magnetosphere pushed the magnetosphere’s boundary and enabled the particles outside the shifted boundary to escape into space. A positive polarity coronal hole high speed stream (CH HSS) contributed to the intense September electron re-energization process in the radiation belts starting on September 1st.
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