On the chemical composition of cosmic rays of highest energy

23 June 2011

journal article
research article
Published by IOP Publishing in Journal of Physics G: Nuclear and Particle Physics

Vol. 38 (8)
https://doi.org/10.1088/0954-3899/38/8/085201

Abstract

We present arguments aiming at reconciling apparently contradictory results concerning the chemical composition of cosmic rays (CRs) of highest energy, coming recently from the Auger and HiRes collaborations. In particular, we argue that the energy dependence of the mean value and root mean square fluctuation of shower maxima distributions observed by the Auger experiment are not necessarily caused by the change of the nuclear composition of primary CRs. They could also be caused by the change of distribution of the first interaction point in the cascade. A new observable, in which this influence is strongly suppressed, is proposed and tested.

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This publication has 16 references indexed in Scilit:

Hadronic multiparticle production at ultrahigh energies and extensive air showers
Physical Review D, 2011
A comprehensive study of shower to shower fluctuations
Astroparticle Physics, 2011
The highest-energy cosmic rays may be iron nuclei
Physics Today, 2010
Indications of Proton-Dominated Cosmic-Ray Composition above 1.6 EeV
Physical Review Letters, 2010
Measurement of the Depth of Maximum of Extensive Air Showers above $10^{18} eV$
Physical Review Letters, 2010
On the measurement of the proton-air cross section using air shower data
New Journal of Physics, 2009
QGSJET-II: towards reliable description of very high energy hadronic interactions
Nuclear Physics B - Proceedings Supplements, 2006
Influence of shower fluctuations and primary composition on studies of the shower longitudinal development
Physical Review D, 2004
Hybrid simulations of extensive air showers
Physical Review D, 2002
Energy dependence of inelasticity as seen by cosmic rays
Journal of Physics G: Nuclear and Particle Physics, 1993