Measurement of two-particle correlations with respect to second- and third-order event planes in Au+Au collisions at s_NN=200 GeV

Abstract

We present measurements of azimuthal correlations of charged hadron pairs in s_NN=200 GeV Au+Au collisions for the trigger and associated particle transverse-momentum ranges of 1<pTt<10~GeV/c and 0.5<pTa<10~GeV/c. After subtraction of an underlying event using a model that includes higher-order azimuthal anisotropy v2, v3, and v4, the away-side yield of the highest trigger- (pTt>4~GeV/c) correlations is suppressed compared to that of correlations measured in p+p collisions. At the lowest associated particle pT (0.5<pTa<1 GeV/c), the away-side shape and yield are modified relative to those in p+p collisions. These observations are consistent with the scenario of radiative-jet energy loss. For the low-pT trigger correlations (2<pTt<4 GeV/c), a finite away-side yield exists and we explore the dependence of the shape of the away-side within the context of an underlying-event model. Correlations are also studied differentially versus event-plane angle 2 and 3. The angular correlations show an asymmetry when selecting the sign of the difference between the trigger-particle azimuthal angle and the 2 event plane. This asymmetry and the measured suppression of the pair yield out of plane is consistent with a path-length-dependent energy loss. No 3 dependence can be resolved within experimental uncertainties.