Disentangling centrality bias and final-state effects in the production of high-pT π0 using direct γ in d+Au collisions at s_NN=200 GeV

Abstract

PHENIX presents a simultaneous measurement of the production of direct γ and π0 in d+Au collisions at s_NN=200 GeV over a pT range of 7.5 to 18 GeV/c for different event samples selected by event activity, i.e. charged-particle multiplicity detected at forward rapidity. Direct-photon yields are used to empirically estimate the contribution of hard-scattering processes in the different event samples. Using this estimate, the average nuclear-modification factor Rd Au,EXPγ dir is 0.9250.023( stat)0.15 (scale), consistent with unity for minimum-bias (MB) d+Au events. For event classes with moderate event activity, Rd Au,EXPγ dir is consistent with the MB value within 5\% uncertainty. These results confirm that the previously observed enhancement of high-pT π0 production found in small-system collisions with low event activity is a result of a bias in interpreting event activity within the Glauber framework. In contrast, for the top 5\% of events with the highest event activity, Rd Au,EXPγ dir is suppressed by 20\% relative to the MB value with a significance of 4.5σ, which may be due to final-state effects.