We compare the reconstructed hadronization conditions in relativistic nuclear collisions in the nucleon–nucleon centre-of-mass energy range 4.7–2760GeV in terms of temperature and baryon-chemical potential with lattice QCD calculations, by using hadronic multiplicities. We obtain hadronization temperatures and baryon chemical potentials with a fit to measured multiplicities by correcting for the effect of post-hadronization rescattering. The post-hadronization modification factors are calculated by means of a coupled hydrodynamical-transport model simulation under the same conditions of approximate isothermal and isochemical decoupling as assumed in the statistical hadronization model fits to the data. The fit quality is considerably better than without rescattering corrections, as already found in previous work. The curvature of the obtained “true” hadronization pseudo-critical line κis found to be 0.0048 ±0.0026, in agreement with lattice QCD estimates; the pseudo-critical temperature at vanishing μBis found to be 164.3 ±1.8MeV.
Hadronization conditions in relativistic nuclear collisions and the QCD pseudo-critical line / Becattini, Francesco; Steinheimer, Jan; Stock, Reinhard; Bleicher, Marcus. - In: PHYSICS LETTERS. SECTION B. - ISSN 0370-2693. - STAMPA. - 764:(2017), pp. 241-246. [10.1016/j.physletb.2016.11.033]
Hadronization conditions in relativistic nuclear collisions and the QCD pseudo-critical line
BECATTINI, FRANCESCO;
2017
Abstract
We compare the reconstructed hadronization conditions in relativistic nuclear collisions in the nucleon–nucleon centre-of-mass energy range 4.7–2760GeV in terms of temperature and baryon-chemical potential with lattice QCD calculations, by using hadronic multiplicities. We obtain hadronization temperatures and baryon chemical potentials with a fit to measured multiplicities by correcting for the effect of post-hadronization rescattering. The post-hadronization modification factors are calculated by means of a coupled hydrodynamical-transport model simulation under the same conditions of approximate isothermal and isochemical decoupling as assumed in the statistical hadronization model fits to the data. The fit quality is considerably better than without rescattering corrections, as already found in previous work. The curvature of the obtained “true” hadronization pseudo-critical line κis found to be 0.0048 ±0.0026, in agreement with lattice QCD estimates; the pseudo-critical temperature at vanishing μBis found to be 164.3 ±1.8MeV.File | Dimensione | Formato | |
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