Abstract
We study the mass dependent hierarchy of kinetic freeze-out parameters of hadrons in low energy heavy-ion collisions. For this purpose, the transverse momentum and rapidity spectra of the identified hadrons produced in central Pb+Pb collisions, available at SPS energies ranging from $\rm E_{Lab}=20A-158A $ GeV, are analyzed within a generalized non boost-invariant blast wave model. We consider separate simultaneous fits for light hadrons ($\pi^{-}$, $K^{\pm}$) and heavy strange hadrons ($\Lambda$, $\bar{\Lambda}$, $\phi$, $\Xi^{\pm}$, $\Omega^{\pm}$), for which the transverse momentum spectra as well as rapidity spectra are available. We also perform a separate fit to transverse momentum spectra of charmonia ($J/\Psi$, $\Psi'$) at $158A $ GeV collisions. We find a clear mass dependent hierarchy in the fitted kinetic freeze-out parameters. Further, we study the rapidity spectra using analytical Landau flow solution for non-conformal systems. We find that the fitted value of sound velocity in the medium also shows a similar hierarchy.
Highlights
Relativistic heavy-ion collisions are a suitable tool to produce and study hot and dense strongly interacting matter in the laboratory [1,2,3]
By varying the collision energy, the nuclear matter can be created over a wide range of temperatures and densities, which facilitates the systematic investigation of the large parts of the QCD phase diagram
In our previous work [23], we investigated the kinetic freezeout conditions of the light hadrons (π −, K±, p) by analyzing their transverse and longitudinal spectra in the beam energy range of ELab = 2A–158A GeV by employing a Published by the American Physical Society
Summary
Relativistic heavy-ion collisions are a suitable tool to produce and study hot and dense strongly interacting matter in the laboratory [1,2,3]. We employ the non-boost-invariant blastwave model to study the mass-dependent hierarchy in kinetic freeze-out parameters of hadrons produced in central Pb+Pb collisions at SPS energies. To this end, we analyze the pT spectra and rapidity spectra of the identified hadrons at collision energies ranging from ELab = 20A–158A GeV. We perform for the first time a systematic analysis of the heavy strange hadrons produced in the low-energy nuclear collisions using the non-boost-invariant blast-wave model. To the best of our knowledge, a thorough analysis of pT and y distributions of all varieties of multistrange hadrons produced in the low-energy domain has never been attempted using a non-boost-invariant blast-wave model.
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