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Proton correlations and apparent intermittency in the UrQMD model with hadronic potentials

Pengcheng Li, Yongjia Wang, Jan Steinheimer, Qingfeng Li, Hongfei Zhang

2021Physics Letters B14 citationsDOIOpen Access PDF

Abstract

It is shown that the inclusion of hadronic interactions, and in particular nuclear potentials, in simulations of heavy ion collisions at the SPS energy range can lead to obvious correlations of protons. These correlations contribute significantly to an intermittency analysis as performed at the NA61 experiment. The beam energy and system size dependence is studied by comparing the resulting intermittency index for heavy ion collisions of different nuclei at beam energies of 40A, 80A and 150A GeV. The resulting intermittency index from our simulations is similar to the reported values of the NA61 collaboration, if nuclear interactions are included. The observed apparent intermittency signal is the result of the correlated proton pairs with small relative transverse momentum Δpt, which would be enhanced by hadronic potentials, and this correlation between the protons is slightly influenced by the coalescence parameters and the relative invariant four-momentum qinv cut.

Topics & Concepts

PhysicsIntermittencyHadronNuclear physicsProtonLarge Hadron ColliderMultiplicity (mathematics)Coalescence (physics)ThermodynamicsMathematicsAstrobiologyMathematical analysisTurbulenceHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studies
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