Event-by-event fluctuations of mean transverse momentum in proton-proton collisions at s = 13 TeV with PYTHIA8 and HERWIG7 models
Abstract
Estimations of event-by-event mean transverse momentum ( p T ) fluctuations are reported in terms of the integral correlator, p T p T, and the skewness of event-wise p T distribution in proton-proton (pp) collisions at s=13 TeV with the Monte Carlo event generators PYTHIA8 and HERWIG7. The final-state charged particles with transverse momentum (p T) and pseudorapidity (η) ranges 0.15 ≤ p T≤ 2.0 GeV/c and |η| ≤ 0.8 were considered for the investigation. The correlator, p T p T, is observed to follow distinct decreasing trends with average charged particle multiplicity ( N ch ) for the models. Furthermore, both models yield positive finite skewness in low-multiplicity events. Fluctuations are additionally studied using the transverse spherocity estimator (S 0) to understand the relative contributions of hard scattering (jets) and other soft processes to the observed fluctuations. Comparing model predictions for p T fluctuations provides valuable insight into the sensitivity of these fluctuations to hadronization and parton shower models. This is essential for a reliable interpretation of the fluctuation dynamics in pp collisions. Moreover, such comparisons would help to establish a crucial baseline for identifying and studying non-trivial fluctuations in heavy-ion collisions.
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