Finite V 2Δ puzzle in low-multiplicity pp collisions from ultra-long-range azimuthal correlations in the string-shoving model

Abstract

Ultra-long range angular correlations have been recently reported by the ALICE collaboration in pp collisions at s=13 TeV below dN ch/ dη=7. The measurements have been performed as a function of the charged-particle multiplicity at midrapidity (N ch in |η|<0.8), which is known to be strongly sensitive to local multiplicity fluctuations. The present work investigates the impact of the event-activity estimator on ultra-long range angular correlations. The study is conducted in the framework of PYTHIA8 with the string shoving mechanism since it gives a non-zero elliptic flow coefficient, V2Δ. The analysis is conducted as a function of N ch, the number of parton-parton scatterings (N mpi) and flattenicity. Surprisingly, for ultra-long range correlations, pp collisions with N mpi=1 (dijets) seems to be the most sensitive to string shoving. The effect diminishes with increasing N mpi. While in data, within uncertainties, V2Δ exhibits a weak multiplicity dependence; the string shoving mechanism gives a V2Δ that decreases with the increase in N ch. The present work therefore supports the picture stating that mechanisms such as string shoving might explain the low multiplicity limit, whereas, hydro becomes relevant in high-multiplicity pp collisions. This work also suggests that flattenicity might be more effective than N ch to better handle non-flow effects.