Neutral pion production with respect to centrality and reaction plane in Au+Au collisions at sqrt(sNN)=200 GeV

Abstract

The PHENIX experiment has measured the production of neutral pions in Au+Au collisions at sqrt(sNN)=200 GeV. The new data offer a fourfold increase in recorded luminosity, providing higher precision and a larger reach in transverse momentum, pT, to 20 GeV/c. The production ratio of eta/pi0 is 0.46+/-0.01(stat)+/-0.05(syst), constant with pT and collision centrality. The observed ratio is consistent with earlier measurements, as well as with the p+p and d+Au values. The production of pi0 is suppressed by a factor of 5, as in earlier findings. However, with the improved statistical precision a small but significant rise of the nuclear modification factor, RAA, vs pT, with a slope of 0.0106+/-(0.0034)(0.0029)[GeV/c]-1, is discernible in central collisions. A phenomenological extraction of the average fractional parton energy loss shows a decrease with increasing pT. To study the path length dependence of suppression, the pi0 yield was measured at different angles with respect to the event plane; a strong azimuthal dependence of the pi0 RAA is observed. The data are compared to theoretical models of parton energy loss as a function of the path length, L, in the medium. Models based on pQCD are insufficient to describe the data, while a hybrid model utilizing pQCD for the hard interactions and AdS/CFT for the soft interactions is consistent with the data.