Physics – Nuclear Physics – Nuclear Theory
Scientific paper
2002-09-24
Acta Phys.Polon. B27 (1996) 1037-1140
Physics
Nuclear Physics
Nuclear Theory
104 pages; published in Acta Physica Polonica B 27 (1996) 1037 -1140. Since this manuscript remains not accessible on publishe
Scientific paper
After a brief survey of the remarkable accomplishments of the current heavy ion collision experiments up to 200A GeV, we address in depth the role of strange particle production in the search for new phases of matter in these collisions. In particular, we show that the observed enhancement pattern of otherwise rarely produced multistrange antibaryons can be consistently explained assuming color deconfinement in a localized, rapidly disintegrating hadronic source. We develop the theoretical description of this source, and in particular study QCD based processes of strangeness production in the deconfined, thermal quark-gluon plasma phase, allowing for approach to chemical equilibrium and dynamical evolution. We also address thermal charm production. Using a rapid hadronization model we obtain final state particle yields, providing detailed theoretical predictions about strange particle spectra and yields as function of heavy ion energy. Our presentation is comprehensive and self-contained: we introduce in considerable detail the procedures used in data interpretation, discuss the particular importance of selected experimental results and show how they impact the theoretical developments.
Letessier Jean
Rafelski Johann
Tounsi Ahmed
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