Triangular flow of thermal photons from an event-by-event hydrodynamic model for 2.76A TeV Pb+Pb collisions at LHC

Abstract

We calculate the triangular flow parameter v3 of thermal photons from an event-by-event ideal hydrodynamic model for 0--40\% central collisions of Pb nuclei at sNN=2.76 TeV at LHC. v3 determined with respect to the participant plane (PP) is found to be non-zero, positive and its pT dependence is qualitatively similar to the elliptic flow parameter v2(PP) of thermal photons in the range 1 pT 6 GeV/c. In the range pT \, 3 GeV/c, v3(PP) is found to be about 50--75\% of v2(PP) and for pT \, > 3 GeV/c the two anisotropy parameters become comparable. The local fluctuations in the initial density distribution as well as the initial global geometry of the produced matter in the event-by-event hydrodynamic framework are responsible for this substantial value of v3( PP). However, as expected, the triangular flow parameter calculated with respect to the reaction plane v3(RP) is found to be close to zero. We show that v3(PP) strongly depends on the value of the fluctuation size scale σ especially in the higher pT \, ( 3 GeV/c) region where a larger value of σ results in a smaller v3( PP). In addition, the v3 (PP) is found to increase with the assumed formation time of the thermalized system.