Global analysis of the extended cosmic-ray decreases observed with world-wide networks of neutron monitors and muon detectors; temporal variation of the rigidity spectrum and its implication

arXiv - PHYS - Space Physics Pub Date : 2024-08-26 DOI:arxiv-2408.14696

K. Munakata, Y. Hayashi, M. Kozai, C. Kato, N. Miyashita, R. Kataoka, A. Kadokura, S. Miyake, K. Iwai, E. Echer, A. Dal Lago, M. Rockenbach, N. J. Schuch, J. V. Bageston, C. R. Braga, H. K. Al Jassar, M. M. Sharma, M. L. Duldig, J. E. Humble, I. Sabbah, P. Evenson, T. Kuwabara, J. Kóta

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Abstract

This paper presents the global analysis of two extended decreases of the galactic cosmic ray intensity observed by world-wide networks of ground-based detectors in 2012. This analysis is capable of separately deriving the cosmic ray density (or omnidirectional intensity) and anisotropy each as a function of time and rigidity. A simple diffusion model along the spiral field line between Earth and a cosmic-ray barrier indicates the long duration of these events resulting from about 190$^\circ$ eastern extension of a barrier such as an IP-shock followed by the sheath region and/or the corotating interaction region (CIR). It is suggested that the coronal mass ejection merging and compressing the preexisting CIR at its flank can produce such the extended barrier. The derived rigidity spectra of the density and anisotropy both vary in time during each event period. In particular we find that the temporal feature of the ``phantom Forbush decrease'' reported in an analyzed period is dependent on rigidity, looking quite different at different rigidities. From these rigidity spectra of the density and anisotropy, we derive the rigidity spectrum of the average parallel mean-free-path of pitch angle scattering along the spiral field line and infer the power spectrum of the magnetic fluctuation and its temporal variation. Possible physical cause of the strong rigidity dependence of the ``phantom Forbush decrease'' is also discussed. These results demonstrate the high-energy cosmic rays observed at Earth responding to remote space weather.

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对全球中子监测器和μ介子探测器网络观测到的扩展宇宙射线衰减进行全球分析；刚度谱的时间变化及其影响

本文介绍了对 2012 年全球地基探测器网络观测到的银河宇宙射线强度的两次扩展下降进行的全球分析。这种分析能够分别得出宇宙射线密度（或全向强度）和各向异性与时间和刚度的函数关系。沿着地球和宇宙射线屏障之间的螺旋场线建立的一个简单扩散模型表明，这些事件的持续时间很长，是由屏障（例如 IP 震荡）向东延伸约 190 美元^\circ$后的鞘区和/或冠状相互作用区（CIR）造成的。研究认为，日冕物质抛射在其侧翼合并并压缩了先前存在的CIR，从而产生了这种扩展的屏障。得出的密度和各向异性的刚度谱在每个事件期间都随时间变化。特别是，我们发现在一个分析时段内报告的 "象福布斯下降 "的时间特征取决于刚度，在不同的刚度下会有很大的不同。根据这些密度和各向异性的刚度谱，我们推导出了沿螺旋场线的俯仰角散射平均平行平均自由路径的刚度谱，并推断出了磁波动的功率谱及其时间变化。此外，还讨论了 "象福布什减小 "的强刚度依赖性的可能物理原因。这些结果证明了在地球上观测到的高能宇宙射线对遥远空间天气的响应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Space Physics

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