Fire streaks, electromagnetic effects, directed flow and lifetime of the plasma at SPS energies

Abstract

We present our calculation of electromagnetic effects, induced by the spectator charge on Feynman-xF distributions of charged pions in peripheral Pb+Pb collisions at CERN SPS energies, including realistic initial space-time-momentum conditions for pion emission. The calculation is performed in the framework of a specific implementation of the fire-streak model, adopted to the production of both π- and π+ mesons. Isospin effects are included to take into account the asymmetry in production of π+ and π- at high rapidity. A comparison to a simplified model from the literature is made. We obtain a good description of the NA49 data on the xF- and pT-dependence of the ratio of cross sections π+/π-. The experimental data favors short times (0.5<τ<2~fm/c) for fast pion creation in the local fire-streak rest frame. The possibility of the expansion of the spectators is considered in our calculation, and its influence on the electromagnetic effect observed for the π+/π- ratio is discussed. The influence of directed and elliptic flow, and vorticity on the observed effect is also estimated. We conclude that the fire-streak model, which properly describes the centrality dependence of π- rapidity spectra at CERN SPS energies, also provides realistic initial conditions for pion production. Consequently, it provides a quantitative description of the electromagnetic effect on the π+/π- ratio as a function of xF.