{"title":"2000年7月15-16日大磁暴期间,高能电子和质子与Pc5超低频波的相互作用","authors":"E. Lee, I. Mann, L. Ozeke","doi":"10.5140/jass.2022.39.4.145","DOIUrl":null,"url":null,"abstract":"The dynamics of the outer zone radiation belt has received a lot of attention\n mainly due to the correlation between the occurrence of enhancing relativistic electron\n flux and spacecraft operation anomalies or even failures (e.g., Baker et al. 1994).\n Relativistic electron events are often observed during great storms associated with\n ultra low frequency (ULF) waves. For example, a large buildup of relativistic electrons\n was observed during the great storm of March 24, 1991 (e.g., Li et al. 1993; Hudson et\n al. 1995; Mann et al. 2013). However, the dominant processes which accelerate\n magnetospheric radiation belt electrons to MeV energies are not well understood. In this\n paper, we present observations of Pc5 ULF waves in the recovery phase of the Bastille\n day storm of July 16, 2000 and electron and proton flux simultaneously oscillating with\n the same frequencies as the waves. The mechanism for the observed electron and proton\n flux modulations is examined using groundbased and satellite observations. During this\n storm time, multiple packets of discrete frequency Pc5 ULF waves appeared associated\n with energetic particle flux oscillations. We model the drift paths of electrons and\n protons to determine if the particles drift through the ULF wave to understand why some\n particle fluxes are modulated by the ULF waves and others are not. We also analyze the\n flux oscillations of electrons and protons as a function of energy to determine if the\n particle modulations are caused by a ULF wave drift resonance or advection of a particle\n density gradient. We suggest that the energetic electron and proton modulations by Pc5\n ULF waves provide further evidence in support of the important role that ULF waves play\n in outer radiation belt dyanamics during storm times.","PeriodicalId":44366,"journal":{"name":"Journal of Astronomy and Space Sciences","volume":null,"pages":null},"PeriodicalIF":0.6000,"publicationDate":"2022-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Energetic Electron and Proton Interactions with Pc5 Ultra Low Frequency (ULF) Waves\\n during the Great Geomagnetic Storm of 15–16 July 2000\",\"authors\":\"E. Lee, I. Mann, L. 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In this\\n paper, we present observations of Pc5 ULF waves in the recovery phase of the Bastille\\n day storm of July 16, 2000 and electron and proton flux simultaneously oscillating with\\n the same frequencies as the waves. The mechanism for the observed electron and proton\\n flux modulations is examined using groundbased and satellite observations. During this\\n storm time, multiple packets of discrete frequency Pc5 ULF waves appeared associated\\n with energetic particle flux oscillations. We model the drift paths of electrons and\\n protons to determine if the particles drift through the ULF wave to understand why some\\n particle fluxes are modulated by the ULF waves and others are not. We also analyze the\\n flux oscillations of electrons and protons as a function of energy to determine if the\\n particle modulations are caused by a ULF wave drift resonance or advection of a particle\\n density gradient. 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引用次数: 0
摘要
外区辐射带动力学之所以受到广泛关注,主要是因为相对论性电子通量增强的发生与航天器运行异常甚至故障之间存在相关性(如Baker et al. 1994)。相对论性电子事件经常在与超低频(ULF)波相关的大风暴中被观察到。例如,在1991年3月24日的大风暴期间观测到大量相对论性电子的聚集(例如,Li et al. 1993;Hudson et al. 1995;Mann et al. 2013)。然而,将磁层辐射带电子加速到MeV能量的主要过程还没有得到很好的理解。本文介绍了在2000年7月16日巴士底日风暴恢复阶段的Pc5 ULF波的观测结果,以及电子和质子通量同时以与波相同的频率振荡。利用地基和卫星观测对观测到的电子和质子通量调制机制进行了检验。在这次风暴期间,多个离散频率Pc5 ULF波包出现与高能粒子通量振荡相关。我们模拟了电子和质子的漂移路径,以确定粒子是否通过极低频波漂移,从而理解为什么一些粒子的通量被极低频波调制,而另一些则没有。我们还分析了电子和质子的通量振荡作为能量的函数,以确定粒子调制是由ULF波漂移共振还是粒子密度梯度的平流引起的。我们认为,Pc5超高频波对高能电子和质子的调制提供了进一步的证据,支持超高频波在风暴期间对外辐射带动力学的重要作用。
Energetic Electron and Proton Interactions with Pc5 Ultra Low Frequency (ULF) Waves
during the Great Geomagnetic Storm of 15–16 July 2000
The dynamics of the outer zone radiation belt has received a lot of attention
mainly due to the correlation between the occurrence of enhancing relativistic electron
flux and spacecraft operation anomalies or even failures (e.g., Baker et al. 1994).
Relativistic electron events are often observed during great storms associated with
ultra low frequency (ULF) waves. For example, a large buildup of relativistic electrons
was observed during the great storm of March 24, 1991 (e.g., Li et al. 1993; Hudson et
al. 1995; Mann et al. 2013). However, the dominant processes which accelerate
magnetospheric radiation belt electrons to MeV energies are not well understood. In this
paper, we present observations of Pc5 ULF waves in the recovery phase of the Bastille
day storm of July 16, 2000 and electron and proton flux simultaneously oscillating with
the same frequencies as the waves. The mechanism for the observed electron and proton
flux modulations is examined using groundbased and satellite observations. During this
storm time, multiple packets of discrete frequency Pc5 ULF waves appeared associated
with energetic particle flux oscillations. We model the drift paths of electrons and
protons to determine if the particles drift through the ULF wave to understand why some
particle fluxes are modulated by the ULF waves and others are not. We also analyze the
flux oscillations of electrons and protons as a function of energy to determine if the
particle modulations are caused by a ULF wave drift resonance or advection of a particle
density gradient. We suggest that the energetic electron and proton modulations by Pc5
ULF waves provide further evidence in support of the important role that ULF waves play
in outer radiation belt dyanamics during storm times.
期刊介绍:
JASS aims for the promotion of global awareness and understanding of space science and related applications. Unlike other journals that focus either on space science or on space technologies, it intends to bridge the two communities of space science and technologies, by providing opportunities to exchange ideas and viewpoints in a single journal. Topics suitable for publication in JASS include researches in the following fields: space astronomy, solar physics, magnetospheric and ionospheric physics, cosmic ray, space weather, and planetary sciences; space instrumentation, satellite dynamics, geodesy, spacecraft control, and spacecraft navigation. However, the topics covered by JASS are not restricted to those mentioned above as the journal also encourages submission of research results in all other branches related to space science and technologies. Even though JASS was established on the heritage and achievements of the Korean space science community, it is now open to the worldwide community, while maintaining a high standard as a leading international journal. Hence, it solicits papers from the international community with a vision of global collaboration in the fields of space science and technologies.
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