Particle production as a function of the underlying event in pp collisions simulated with PYTHIA 8

Abstract

In this work we present the production of charged particles associated with high-p T trigger particles (8<p T trig.<15 GeV /c) at mid-pseudorapidity in proton-proton collisions at s=5.02\,TeV simulated with the PYTHIA 8 Monte Carlo model. The study is performed as a function of the relative transverse activity classifier, R T, which is the relative charged-particle multiplicity in the transverse region (π/3 <|φ| <2π/3) of the di-hadron correlations, and it is sensitive to the Multi-Parton Interactions. The evolution of the yield of associated particles on both the toward and the away regions with 3≤ p T assoc.<8 GeV/c as a function of R T is investigated. We propose a strategy which allows for the modelling and subtraction of the Underlying Event (UE) contribution from the toward and the away regions in challenging environments like those characterised by large R T. We found that the signal in the away region becomes broader with increasing R T. Contrarily, the yield increases with R T in the toward region. This effect is reminiscent of that seen in heavy-ion collisions, where an enhancement of the yield in the toward region for 0-5\% central Pb--Pb collisions at s NN=2.76\,TeV was reported. To further understand the role of the UE and additional jet activity, the transverse region is divided into two one-sided sectors, "trans-max" and "trans-min" selected in each event according to which region has larger or smaller charged particle multiplicity. Based on this selection criterion, the observables are studied as a function of R T max and R T min, respectively. The presented results have been published in J. Phys. G 48, no.1, 015007 (2020) and Phys. Rev. D 104, no.1, 016017 (2021).

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