Energy loss predicts no v2 in small systems

Abstract

We present high-pT RAB and v2 from a perturbative quantum chromodynamics-based energy loss model that includes event-by-event hydrodynamic evolution of the medium and small system size corrections to the energy loss. The model is calibrated on, and describes well, large system RAA and v2 experimental data. The extrapolation of our model to Ne+Ne and O+O agrees quantitatively with recent experimental measurements of RAA. Surprisingly, at high-pT our energy loss model predicts v2≈0 for all symmetric and asymmetric small systems when extracted using either hard-hard or hard-soft two-particle correlations. We argue that all energy loss models will in general predict v2≈0 when extracted using hard-soft correlations, which is the usual experimental method for measuring anisotropy in hadronic collisions, due to a generic geometric decorrelation between the hard and soft sector participant planes.

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