Centrality Dependence of Chemical Freeze-Out Parameters and Strangeness Equilibration in RHIC and LHC Energies

Abstract: We have estimated centrality variation of chemical freeze-out parameters from yield data at midrapidity of π ± , K … Show more

“…[39,40], the chemical freeze-out temperature and net-baryon chemical potential could change as the centrality in the relativistic heavy-ion collisions. Although the temperature does not vary much, the net-baryon chemical potential increases from peripheral to central collisions [40]. For simplicity, we move the freeze-out curve described by Eq.…”

“…In fact, the centrality dependence of the chemical freeze-out temperature and baryon chemical potential have been studied in Refs. [63,64]. Although the chemical freeze-out temperature does not vary much with centralities, the temperature interval between the three different freeze-out curves can be very small.…”

Fixed point behavior of cumulants in the three-dimensional Ising universality class

“…[39,40], the chemical freeze-out temperature and net-baryon chemical potential could change as the centrality in the relativistic heavy-ion collisions. Although the temperature does not vary much, the net-baryon chemical potential increases from peripheral to central collisions [40]. For simplicity, we move the freeze-out curve described by Eq.…”

“…In fact, the centrality dependence of the chemical freeze-out temperature and baryon chemical potential have been studied in Refs. [63,64]. Although the chemical freeze-out temperature does not vary much with centralities, the temperature interval between the three different freeze-out curves can be very small.…”

Fixed point behavior of cumulants in the three-dimensional Ising universality class

Energy dependence of the freeze-out parameters extracted from Au + Au and Pb + Pb collisions using THERMUS

Effective (kinetic freeze-out) temperature, transverse flow velocity, and kinetic freeze-out volume in high energy collisions