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Transition from baryon-to meson-dominated freeze-out—early decoupling around 30 A GeV?

2006; IOP Publishing; Volume: 32; Issue: 12 Linguagem: Inglês

10.1088/0954-3899/32/12/s28

1361-6471

H. Oeschler, J. Cleymans, K. Redlich, S. Wheaton,

Particle physics theoretical and experimental studies

The recently discovered sharp peak in the excitation function of the K+/π+ ratio around 30 A GeV in relativistic heavy-ion collisions is discussed in the framework of the statistical model. In this model, the freeze-out of an ideal hadron gas changes from a situation where baryons dominate to one with mainly mesons. This transition occurs at a temperature T = 140 MeV and a baryon chemical potential μB = 410 MeV corresponding to an energy of . The calculated maximum in the K+/π+ ratio is, however, much less pronounced than that observed by the NA49 Collaboration. The smooth increase of the K−/π− ratio with incident energy and the shape of the excitation functions of the Λ/π+, Ξ−/π+ and Ω−/π+ ratios all exhibiting maxima at different incident energies is consistent with the presently available experimental data. The measured K+/π+ ratio exceeds the calculated one just at the incident energy when the freeze-out condition is changing. We speculate that at this point freeze-out might occur in a modified way. We discuss a scenario of an early freeze-out which indeed increases the K+/π+ ratio while most other particle ratios remain essentially unchanged. Such an early freeze-out is supported by results from HBT studies.