Decreasing elliptic flow at the LHC: Calculations in a parton recombination approach

Abstract

We apply the parton recombination approach to study the energy dependence of the elliptic flow, v2 in heavy ion collisions from AGS to LHC energies. The relevant input quantities (T, μB, ηT) at the various center of mass energies are obtained from fits to the available data. The model yields a good description of the integrated v2 data for charged particles at midrapidity from AGS to RHIC energies. In stark contrast to the current expectations, we observe a decrease of the integrated v2 values above the highest RHIC energy. Thus, we predict a decrease of v2 at LHC energies compared to the RHIC results. This drop is attributed to negative v2 values for the underlying parton distributions at low to moderate transverse momenta that develops if the transverse flow velocity is high enough. At energies above the LHC regime, the present approach predicts even negative values for the integrated v2.