Publications (2)0 Total impact
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ABSTRACT: First data on inclusive particle production measured in proton-proton
collisions at the Large Hadron Collider (LHC) are compared to predictions of
various hadron-interaction Monte Carlos (QGSJET, EPOS and SIBYLL) used commonly
in high-energy cosmic-ray physics. While reasonable overall agreement is found
for some of the models, none of them reproduces consistently the sqrt(s)
evolution of all the measured observables. We discuss the implications of the
new LHC data for the modeling of the non-perturbative and semihard parton
dynamics in hadron-hadron and cosmic-rays interactions at the highest energies
studied today.
06/2011;
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ABSTRACT: The determination of the primary energy and mass of ultra-high-energy
cosmic-rays (UHECR) generating extensive air-showers in the Earth's atmosphere,
relies on the detailed modeling of hadronic multiparticle production at
center-of-mass (c.m.) collision energies up to two orders of magnitude higher
than those studied at particle colliders. The first Large Hadron Collider (LHC)
data have extended by more than a factor of three the c.m. energies in which we
have direct proton-proton measurements available to compare to hadronic models.
In this work we compare LHC results on inclusive particle production at
energies sqrt(s) = 0.9, 2.36, and 7 TeV to predictions of various hadronic
Monte Carlo (MC) models used commonly in cosmic-ray (CR) physics (QGSJET, EPOS
and SIBYLL). As a benchmark with a standard collider physics model we also show
PYTHIA (and PHOJET) predictions with various parameter settings. While
reasonable overall agreement is found for some of the MC, none of them
reproduces consistently the sqrt(s) evolution of all the observables. We
discuss implications of the new LHC data for the description of cosmic-ray
interactions at the highest energies.
01/2011;
