STRANGENESS ENHANCEMENT AT THE HADRONIC CHEMICAL FREEZE-OUT

The chemical freeze-out of hadrons created in the high energy nuclear collisions is studied within a realistic version of the hadron resonance gas model. The chemical non-equilibrium of strange particles is accounted via the usual gamma(s) factor, which gives us an opportunity to perform a high quality fit with X-2 /dof similar or equal to 63.5/55 similar or equal to 1.15 of the hadronic multiplicity ratios measured from the low AGS to the highest RHIC energies. In contrast to the previous findings, we observe the strangeness enhancement at low energies instead of a suppression. In addition, the performed gamma(s) fit allows us to achieve the highest quality of the Strangeness Horn description with X-2 /dof = 3.3/ 14. For the first time, the top point of the Strangeness Horn is perfectly reproduced, which makes our theoretical horn as sharp as an experimental one. However, the gamma(s) fit approach does not sizably improve the description of the multistrange baryons and antibaryons. Therefore, an apparent deviation of the multistrange baryons and antibaryons from the chemical equilibrium requires a further explanation.