Ratio of photon anisotropic flow in relativistic heavy ion collisions
Abstract
The pT dependent elliptic and triangular flow parameters of direct photons are known to be dominated by thermal radiations. The non-thermal contributions dilute the photon anisotropic flow by adding extra weight factor in the vn calculation. The discrepancy between experimental photon anisotropic flow data and results from theoretical model calculations is not well understood even after significant developments in the model calculations as well as in the experimental analysis. We show that the ratio of photon vn can be a potential observable in this regard by minimizing the uncertainties arising due to the non-thermal contributions. We calculate the v2/v3 of photons as a function of pT from heavy ion collisions at RHIC and compare the results with available experimental data. The ratio does not change significantly pT in the region pT>2 GeV. However, it rises towards smaller pT (< 2 GeV) values. The ratio is found to be larger for peripheral collisions than for central collisions. In addition, it is found to be sensitive to the initial formation time and the final freeze-out temperature at different pT regions unlike the individual anisotropic flow parameters. We show that the photon v1/v2 and v1/v3 along with the v2/v3 results may help us constraining the initial conditions.
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