Azimuthal anisotropy of direct photons in Au+Au collisions at s_NN=200 GeV

Abstract

The PHENIX experiment at the Relativistic Heavy Ion Collider measured the second Fourier component v2 of the direct-photon azimuthal anisotropy at midrapidity in Au+Au collisions at s_NN=200 GeV. The results are presented in 10\% wide bins of collision centrality and cover the transverse-momentum range of 1<pT<20 GeV/c, and are in quantitative agreement with findings published earlier, but provide better granularity and higher pT reach. Above a pT of 8--10 GeV/c, where hard scattering dominates the direct-photon production, v2 is consistent with zero. Below that in each centrality bin v2 as a function of pT is comparable to the π0 anisotropy albeit with a tendency of being somewhat smaller. The results are compared to recent theory calculations that include, in addition to thermal radiation from the quark-gluon plasma and hadron gas, sources of photons from pre-equilibrium, strong magnetic fields, or radiative hadronization. While the newer theoretical calculations describe the data better than previous models, none of them alone can fully explain the results, particularly in the region of pT=4--8 GeV/c.

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