Lattice based equation of state and transverse momentum spectra of identified particles in ideal and viscous hydrodynamics

Abstract

Assuming that in Au+Au collisions, a baryon free fluid is produced, transverse momentum spectra of identified particles (π, K, p and φ), in evolution of ideal and viscous fluid is studied. Hydrodynamic evolution is governed by a lattice based equation of state (EOS), where the confinement-deconfinement transition is a cross-over at Tco=196 MeV. Ideal or viscous fluid was initialised to reproduce φ meson multiplicity in 0-5% Au+Au collisions. Ideal or minimally viscous (η/s=0.08) fluid evolution reasonably well explain the transverse momentum spectra of pion's, kaon's, and φ meson's in central and mid-central Au+Au collisions. Description to the data is much poorer in viscous fluid evolution with η/s ≥0.12. The model however under estimate proton production by a factor 2.