Effect of hadronic cascade time on freeze-out properties of Identified Hadrons in Au+Au Collisions at sNN = 7.7-39 GeV from AMPT Model

Abstract

We report the transverse momentum pT spectra of identified hadrons (π, K and p( p)) in Au+Au collisions at sNN = 7.7 - 39 GeV from A Multi Phase Transport Model with string melting effect (AMPT-SM). During this study, a new set of parameters are explored to study the effect of hadronic cascade by varying hadronic cascade time tmax = 30 fm/c and 0.4 fm/c. No significant effect of this change is observed in the pT spectra of light hadrons and the AMPT-SM model reasonably reproduces the experimental data. To investigate the kinetic freeze-out properties the blast wave fit is performed to the pT spectra and it is found that the blast wave model describes the AMPT-SM simulations well. We additionally observe that the kinetic freeze-out temperature (Tkin) increases from central to peripheral collisions, which is consistent with the argument of short-lived fireball in peripheral collisions. Whereas the transverse flow velocity, <βT> shows a decreasing trend from central to peripheral collisions indicating a more rapid expansion in the central collisions. Both, Tkin and <βT> show a weak dependence on the collision energy at most energies. We also observe a strong anti-correlation between Tkin and <βT>. The extracted freeze-out parameters from the AMPT-SM simulations agree with the experimental data as opposed to earlier studies that reported some discrepancies. Whereas, no significant effect is found on the freeze-out parameters by varying the tmax. We also report the pT spectra of light hadrons and their freeze-out parameters by AMPT-SM simulations at sNN = 14.5 GeV, where no experimental data is available for comparison. Overall, the set of parameters used in this study well describes the experimental data at BES energies.

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