EPJ Web of Conferences (Jan 2019)

On the Solar Cycle Variation of the Solar Diurnal Anisotropy of Multi-TeV Cosmic-ray Intensity Observed with the Tibet Air Shower Array

  • Amenomori M.,
  • Bi X. J.,
  • Chen D.,
  • Chen T. L.,
  • Chen W. Y.,
  • Cui S. W.,
  • Danzengluobu,
  • Ding L. K.,
  • Feng C. F.,
  • Feng Zhaoyang,
  • Feng Z. Y.,
  • Gou Q. B.,
  • Guo Y. Q.,
  • He H. H.,
  • He Z. T.,
  • Hibino K.,
  • Hotta N.,
  • Hu Haibing,
  • Hu H. B.,
  • Huang J.,
  • Jia H. Y.,
  • Jiang L.,
  • Kajino F.,
  • Kasahara K.,
  • Katayose Y.,
  • Kato C.,
  • Kawata K.,
  • Kozai M.,
  • Labaciren,
  • Le G. M.,
  • Li A. F.,
  • Li H. J.,
  • Li W. J.,
  • Lin Y. H.,
  • Liu C.,
  • Liu J. S.,
  • Liu M. Y.,
  • Lu H.,
  • Meng X. R.,
  • Miyazaki T.,
  • Munakata K.,
  • Nakajima T.,
  • Nakamura Y.,
  • Nanjo H.,
  • Nishizawa M.,
  • Niwa T.,
  • Ohnishi M.,
  • Ohta I.,
  • Ozawa S.,
  • Qian X. L.,
  • Qu X. B.,
  • Saito T.,
  • Saito T. Y.,
  • Sakata M.,
  • Sako T. K.,
  • Shao J.,
  • Shibata M.,
  • Shiomi A.,
  • Shirai T.,
  • Sugimoto H.,
  • Takita M.,
  • Tan Y. H.,
  • Tateyama N.,
  • Torii S.,
  • Tsuchiya H.,
  • Udo S.,
  • Wang H.,
  • Wu H. R.,
  • Xue L.,
  • Yamamoto Y.,
  • Yamauchi K.,
  • Yang Z.,
  • Yuan A. F.,
  • Zhai L. M.,
  • Zhang H. M.,
  • Zhang J. L.,
  • Zhang X. Y.,
  • Zhang Y.,
  • Zhang Yi,
  • Zhang Ying,
  • Zhaxisangzhu,
  • Zhou X. X.

DOI
https://doi.org/10.1051/epjconf/201920808012
Journal volume & issue
Vol. 208
p. 08012

Abstract

Read online

We analyze the temporal variation of the solar diurnal anisotropy of the multi-TeV cosmic-ray intensity observed with the Tibet air shower array from 2000 to 2009, covering the maximum and minimum of the 23rd solar cycle. We comfirm that a remarkable additional anisotropy component is superposed on the Compton-Getting anisotropy at 4.0 TeV, while its amplitude decreases at higher energy regions. In constrast to the additional anisotropy reported by the Matsushiro experiment at 0.6 TeV, we find the residual component measured by Tibet at multi-TeV energies is consistent with being stable, with a fairly constant amplitude of 0.041% ± 0.003% and a phase at around 07.17 ± 00.16 local solar time at 4.0 TeV. This suggests the additional anisotropy observed by the Tibet experiment could result from mechanisms unrelated to solar activities.