Signatures of Protons in UHECR
Abstract
We demonstrate that the energy spectra of Ultra High Energy Cosmic Rays (UHECR) as observed by AGASA, Fly's Eye, HiRes and Yakutsk detectors, have the imprints of UHE proton interaction with the CMB radiation as the dip centered at E 1× 1019 eV, beginning of the GZK cutoff, and very good agreement with calculated spectrum shape. This conclusion about proton composition agrees with recent HiRes data on elongation rate that support the proton composition at E≥ 1× 1018 eV. The visible bump in the spectrum at E 4× 1019 eV is not caused by pile-up protons, but is an artifact of multiplying the spectrum by E3. We argue that these data, combined with small-angle clustering and correlation with AGN (BL Lacs), point to the AGN model of UHECR origin at energies E ≤ 1× 1020 eV. The events at higher energies and the excess of the events at E ≥ 1× 1020 eV, which is observed by AGASA (but absent in the HiRes data) must be explained by another component of UHECR, e.g. by UHECR from superheavy dark matter.
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