J/ suppression and pT spectra in RHIC and LHC energy collisions

Abstract

In a hydrodynamic model, we have studied J/ production in Au+Au/Cu+Cu 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 threshold 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, explains the PHENIX data on the centrality dependence of J/ suppression in Au+Au collisions. J/ pT spectra and the nuclear modification factor in Au+Au collisions are also well explained in the model. The model however over predict centrality dependence of J/ suppression in Cu+Cu collisions by 20-30%. The J/ pT spectra are under predicted by 20-30%. The model predict that in central Pb+Pb collisions at LHC energy, s=5500 GeV, J/'s are suppressed by a factor of 10. The model predicted J/ pT distribution in Pb+Pb collisions at LHC is similar to that in Au+Au collisions at RHIC.