Exploring differential two-particle correlations in γ p and low-multiplicity pp collisions using PYTHIA8

Abstract

A study of two-particle differential number (B) and transverse momentum (P2CD) balance functions in photon-proton (γ p) and proton-proton (pp) collisions at s= 5.36 TeV is presented. The analysis focuses on inclusive charged hadrons within the pseudorapidity coverage |η|<2.4 and the transverse momentum interval 0.3 < pT < 3.0 GeV and examines their correlations in terms of relative pseudorapidity (η) and relative azimuthal angle (φ). The correlation functions are evaluated for same- and opposite-sign pairs, and their combinations are used to extract charge-dependent (CD) and charge-independent (CI) components. The evolution of the near-side peak of the CD correlations is investigated in terms of η and φ as a function of charged-particle multiplicity (Nch) for γ p collisions and compared to pp collisions at a similar multiplicity range. A clear multiplicity dependence of the balance function width is obtained. The width is found systematically lower in γ p events than in pp collisions. This study provides valuable information on particle correlations and production mechanisms in low-Nch regimes for upcoming measurements in small systems.