The Astrophysical Journal (Jan 2024)

Global Analysis of the Extended Decreases in Cosmic Rays Observed with Worldwide Networks of Neutron Monitors and Muon Detectors: Temporal Variation of the Rigidity Spectrum and Its Implication

  • 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

DOI
https://doi.org/10.3847/1538-4357/ad7466
Journal volume & issue
Vol. 974, no. 2
p. 283

Abstract

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This paper presents the global analysis of two extended decreases in the galactic cosmic-ray intensity observed by worldwide 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° eastern extent of a barrier such as an interplanetary shock followed by the sheath region and/or the corotating interaction region (CIR). It is suggested that the coronal mass ejection merging with and compressing the preexisting CIR at its flank can produce such an 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 (FD)” reported in an analyzed period is dependent on rigidity, and looks 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. The possible physical cause of the strong rigidity dependence of the phantom FD is also discussed. These results demonstrate the high-energy cosmic rays observed at Earth responding to remote space weather.

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