The effects of magnetospheric processes on relativistic electron dynamics in the Earth’s outer radiation belt

C. L. Tang; Y. X. Wang; B. Ni; Z. P. Su; G. D. Reeves; J. -C. Zhang; D. N. Baker; H. E. Spence; H. O. Funsten; J. B. Blake

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The effects of magnetospheric processes on relativistic electron dynamics in the Earth’s outer radiation belt

机译：磁体过程对地球外辐射带中相对论电子动力学的影响

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Using the electron phase space density (PSD) data measured by Van Allen Probe A from January 2013 to April 2015, we investigate the effects of magnetospheric processes on relativistic electron dynamics in the Earth’s outer radiation belt during 50 geomagnetic storms. A statistical study shows that the maximum electron PSDs for various μ (μ = 630, 1096, 2290, and 3311 MeV/G) at L~*~4.0 after the storm peak have good correlations with storm intensity (cc~0.70). This suggests that the occurrence and magnitude of geomagnetic storms are necessary for relativistic electron enhancements at the inner edge of the outer radiation belt (L~* = 4.0). For moderate or weak storm events (SYM-H_(min) > ~-100 nT) with weak substorm activity (AE_(max) < 800 nT) and strong storm events (SYM-H_(min) ≤ ~-100 nT) with intense substorms (AE_(max) ≥ 800 nT) during the recovery phase, the maximum electron PSDs for various μ at different L* values (L~* = 4.0, 4.5, and 5.0) are well correlated with storm intensity (cc > 0.77). For storm events with intense substorms after the storm peak, relativistic electron enhancements at L~* = 4.5 and 5.0 are observed. This shows that intense substorms during the storm recovery phase are crucial to relativistic electron enhancements in the heart of the outer radiation belt. Our statistics study suggests that magnetospheric processes during geomagnetic storms have a significant effect on relativistic electron dynamics.

机译：从2013年1月到2015年1月到2015年4月，我们使用Van Allen探针测量的电子相空间密度（PSD）数据，我们研究了50个地磁风暴期间地球外辐射带中相对论电子动力学的磁体过程对磁体过程的影响。统计学研究表明，在暴风峰与风暴强度（CC〜0.70）具有良好的相关性之后，在L〜*〜4.0下，各种μ（μ= 630,1096,2290和3311mev / g）的最大电子PSDS具有良好的相关性（CC〜0.70）。这表明在外辐射带内边缘处的相对论电子增强（L〜* = 4.0）所需的地磁风暴的发生和幅度是必要的。对于中等或弱风暴事件（Sym-H_（min）>〜-100nt），取代效应弱（ae_（max）<800 nt）和强风暴事件（sym-h_（min）≤〜-100nt）在恢复阶段期间强度取代（AE_（最大）≥800nt），不同L *值（L〜* = 4.0,4.5和5.0）的各种μ的最大电子PSDS与风暴强度有很好的相关性（CC> 0.77 ）。对于风暴峰后具有激烈类别的风暴事件，观察到L〜* = 4.5和5.0的相对论电子增强。这表明风暴回收相期间的强烈取代对外辐射带的心脏中的相对主义电子增强至关重要。我们的统计研究表明，地磁风暴期间的磁体过程对相对论电子动力学产生了显着影响。

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来源
《Journal of Geophysical Research, A. Space Physics: JGR》 |2017年第10期|共17页
作者
C. L. Tang; Y. X. Wang; B. Ni; Z. P. Su; G. D. Reeves; J. -C. Zhang; D. N. Baker; H. E. Spence; H. O. Funsten; J. B. Blake;
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作者单位

Shandong Provincial Key Laboratory of Optical Astronomy and Solar-Terrestrial Environment Institute of Space Sciences Shandong University Weihai China;

Sate Key Laboratory of Space Weather Chinese Academy of Sciences Beijing China;

Department of Space Physics School of Electronic Information Wuhan University Wuhan China;

CAS Key Laboratory of Geospace Environment Department of Geophysics and Planetary Sciences University of Science and Technology of China Hefei China;

ISR Division Los Alamos National Laboratory Los Alamos New Mexico USA;

Space Science Center and Department of Physics University of New Hampshire Durham New Hampshire USA;

Laboratory for Atmospheric and Space Research University of Colorado Boulder Boulder Colorado USA;

Space Science Center and Department of Physics University of New Hampshire Durham New Hampshire USA;

ISR Division Los Alamos National Laboratory Los Alamos New Mexico USA;

The Aerospace Corporation Los Angeles California USA;

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原文格式 PDF
正文语种 eng
中图分类空间物理;
关键词
magnetospheric processes; relativistic; electron dynamics;

机译：磁体过程;相对论;电子动力学;

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1. The effects of magnetospheric processes on relativistic electron dynamics in the Earth's outer radiation belt [J] . Tang C. L., Wang Y. X., Ni B., Journal of Geophysical Research. Biogeosciences . 2017,第10期

机译：磁体过程对地球外辐射带中相对论电子动力学的影响
2. Precipitation of Magnetospheric Electrons into the Earth's Atmosphere and the Electrons of the Outer Radiation Belt [J] . G. A. Bazilevskaya, M. S. Kalinin, M. B. Krainev, Bulletin of the Russian Academy of Sciences. Physics . 2017,第2期

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3. Influence of Heliospheric and Geomagnetic Activity on the Dynamics of the Relativistic Electron Fluxes in the Earth’s Outer Radiation Belt around the Minimum of the Solar Activity in 2008–2010 [J] . Yu. S. Shugay, I. S. Veselovsky, O. S. Yakovchouk, Geomagnetism and aeronomy . 2014,第5期

机译：在2008-2010年太阳活动最小值附近，太阳活动和地磁活动对地球外辐射带相对论电子通量动力学的影响
4. Prediction of Relativistic Electrons Flux in the Outer Radiation Belt of the Earth Using Adaptive Methods [C] . Alexander Efitorov, Irina Myagkova, Natalia Sentemova, International Early Research Career Enhancement School on Biologically Inspired Cognitive Architectures . 2016

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5. Relativistic Electrons in Earth's Outer Radiation Belt: Wave-Particle Interactions and Precipitation Loss. [D] . Blum, Lauren W. 2014

机译：地球外部辐射带中的相对论电子：波粒相互作用和降水损失。
6. Scattering of Ultra-relativistic Electrons in the Van Allen Radiation Belts Accounting for Hot Plasma Effects [O] . Xing Cao, Yuri Y. Shprits, Binbin Ni, -1

机译：范艾伦辐射带中超相对论电子的散射解释了热等离子体效应
7. Relativistic Electrons in Earth’s Outer Radiation Belt: Wave-Particle Interactions and Precipitation Loss [O] . Blum Lauren Weber 2014

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The effects of magnetospheric processes on relativistic electron dynamics in the Earth’s outer radiation belt

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