Probing non-perturbative QCD aspects on particle production in pp collisions with forward-backward correlations using PYTHIA8

Abstract

We employ PYTHIA8 simulations to study forward-backward (FB) correlations in pp collisions at LHC energies, probing non-perturbative QCD dynamics via color reconnection (CR) and QCD radiation (ISR/FSR). Using PYTHIA8 (v8.311) under ALICE/ATLAS kinematics, we analyze: extensive: FB multiplicity (b corr mult) and summed p T (b corrΣ p T) correlations; intensive: FB mean p T (b corr p T) correlations; and strongly intensive: NF NB quantity in symmetric pseudorapidity intervals, validated against available experimental data. Systematic studies of b corr mult as functions of η gap, η sep, and η- sectors show MPI-based CR (ranges 3.6, 5.4) and QCD Color Rope significantly improve agreement with data. ISR/FSR critically influence b corr mult and b corrΣ p T, with ISR dominant than FSR. Disabling ISR/FSR fails to replicate η gap-dependent trends. Further, b corrΣ p T shows minimal CR-range sensitivity but the correlation strength increases when CR is disabled. Intensive quantity, b corr p T, exhibit the opposite behavior to extensive observables i.e. the magnitude of b corr p T increases with the increase of CR strength, highlighting the distinct influence of CR on intensive versus extensive observables. Its azimuthal dependence indicates that parton showers drive short-range correlations. The analysis of the strongly intensive quantity as a function of pseudorapidity gap indicates that FSR plays a dominant role at larger gaps, in contrast to the behavior observed in FB multiplicity correlations.