The Extremely high-energy cosmic rays

Feb, 1998
40 pages
Published in:
  • J.Phys.G 24 (1998) 905-938
e-Print:

Citations per year

1998200520122019202405101520
Abstract: (arXiv)
Experimental results from Haverah Park, Yakutsk, AGASA and Fly's Eye are reviewed. All these experiments work in the energy range above 0.1 EeV. The 'dip' structure around 3 EeV in the energy spectrum is well established by all the experiments, though the exact position differs slightly. Fly's Eye and Yakutsk results on the chemical composition indicate that the cosmic rays are getting lighter over the energy range from 0.1 EeV to 10 EeV, but the exact fraction is hadronic interaction model dependent, as indicated by the AGASA analysis. The arrival directions of cosmic rays are largely isotropic, but interesting features may be starting to emerge. Most of the experimental results can best be explained with the scenario that an extragalactic component gradually takes over a galactic population as energy increases and cosmic rays at the highest energies are dominated by particles coming from extragalactic space. However, identification of the extragalactic sources has not yet been successful because of limited statistics and the resolution of the data.
Note:
  • The review paper including 21 figures. 39 pages: To be published in Journal of Physics G Report-no: ICRR /Utah preprint
  • review: experimental results
  • cosmic radiation: energy spectrum
  • cosmic radiation: angular distribution
  • cosmological model
  • galaxy
  • cosmic radiation: particle source
  • photon: cosmic radiation
  • neutrino: cosmic radiation
  • hadron hadron: interaction
  • bibliography