Hadronic centrality dependence in nuclear collisions
Abstract
The kaon number density in nucleus+nucleus and p+p reactions is investigated for the first time as a function of the initial energy density ε and is found to exhibit a discontinuity around ε=1.3 GeV/fm3. This suggests a higher degree of chemical equilibrium for ε > 1.3 GeV/fm3. It can also be interpreted as reflection of the same discontinuity, appearing in the chemical freeze out temperature (T) as a function of ε. The Nα 1 dependence of (u,d,s) hadrons, whith N the number of participating nucleons, also indicates a high degree of chemical equilibrium and T saturation, reached at ε >1.3 GeV/fm3. Assuming that the intermediate mass region (IMR) dimuon enhancement seen by NA50 is due to open charm (D D), the following observation can be made: a) Charm is not equilibrated. b) J//D D suppression -unlike J//DY- appears also in S+A collisions, above ε 1 GeV/fm3. c) Both charm and strangeness show a discontinuity near the same ε. d) J/ could be formed mainly through c c coalescence. e) The enhancement factors of hadrons with u,d,s,c quarks may be connected in a simple way to the mass gain of these particles if they are produced out of a quark gluon plasma (QGP). We discuss these results as possible evidence for the QCD phase transition occuring near ε 1.3 GeV/fm3.
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