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- Title
Probing chemical freeze-out criteria in relativistic nuclear collisions with coarse grained transport simulations.
- Authors
Reichert, Tom; Inghirami, Gabriele; Bleicher, Marcus
- Abstract
We introduce a novel approach based on elastic and inelastic scattering rates to extract the hyper-surface of the chemical freeze-out from a hadronic transport model in the energy range from E lab = 1.23 AGeV to s NN = 62.4 GeV. For this study, the Ultra-relativistic Quantum Molecular Dynamics (UrQMD) model combined with a coarse-graining method is employed. The chemical freeze-out distribution is reconstructed from the pions through several decay and re-formation chains involving resonances and taking into account inelastic, pseudo-elastic and string excitation reactions. The extracted average temperature and baryon chemical potential are then compared to statistical model analysis. Finally we investigate various freeze-out criteria suggested in the literature. We confirm within this microscopic dynamical simulation, that the chemical freeze-out at all energies coincides with ⟨ E ⟩ / ⟨ N ⟩ ≈ 1 GeV, while other criteria, like s / T 3 = 7 and n B + n B ¯ ≈ 0.12 fm - 3 are limited to higher collision energies.
- Publication
European Physical Journal A -- Hadrons & Nuclei, 2020, Vol 56, Issue 10, p1
- ISSN
1434-6001
- Publication type
Article
- DOI
10.1140/epja/s10050-020-00273-y