Hydrodynamical model for J/ suppression and elliptic flow

Abstract

In a hydrodynamic model, we have studied J/ suppression and elliptic flow in Au+Au collisions at RHIC energy s=200 GeV. At the initial time, J/'s are randomly distributed in the fluid. As the fluid evolve in time, the free streaming J/'s are dissolved if the local fluid temperature exceeds a melting temperature TJ/. Sequential melting of charmonium states (c, and J/), with melting temperatures T_c=T ≈ 1.2Tc, TJ/ ≈2Tc and feed-down fraction F≈ 0.3, is consistent with the PHENIX data on J/ suppression and near zero elliptic flow for J/'s. It is also shown that the model will require substantial regeneration of charmoniums, if the charmonium states dissolve at temperature close to the critical temperature, T_c=T ≤ Tc, TJ/≈1.2Tc. The regenerated charmoniums will have positive elliptic flow.