On the Role of Initial Conditions and Final State Interactions in Ultrarelativistic Heavy Ion Collisions
arXiv:0907.5529 · doi:10.1088/0954-3899/36/6/064030
Abstract
We investigate the rapidity dependence of the elliptical flow in heavy ion collisions at 200 GeV (cms), by employing a three-dimensional hydrodynamic evolution, based on different initial conditions, and different freeze-out scenarios. It will be shown that the form of pseudo-rapidity ($η$) dependence of the elliptical flow is almost identical to space-time-rapidity ($η_{s}$) dependence of the initial energy distribution, independent of the freeze-out prescriptions.