Multiplicity dependence freeze-out scenarios in pp collisions at s = 7 TeV
Abstract
The data on transverse momentum integrated hadron yields in different multiplicity classes of p+p collisions at s=7 TeV have been analyzed to extract the chemical freeze-out parameters using a thermal model. The chemical freeze-out parameters have been extracted for three different freeze-out schemes: i. unified freeze-out for all hadrons in complete thermal equilibrium (1CFO), ii. unified freeze-out for all hadrons with an additional parameter γS which accounts for possible out-of-equilibrium production of strange hadrons (1CFO+γS), and iii. separate freeze-out for hadrons with and without strangeness content (2CFO). It has been observed that 1CFO+γS scheme gives the best description of the hadronic yields at midrapidity when multiplicity ( dNch/dη ) of the collision is less than 10. This indicates that the strangeness is out of equilibrium in most of the multiplicity classes of p+p collisions. All the three parameters of this CFO scheme, temperature (T), radius of the fireball (R) and strangeness suppression factor (γS) increase with the increase of dNch/dη . Further, we have compared applicability of different CFO schemes considering two more colliding system p+Pb at = 5.02 and Pb+Pb at = 2.76 TeV along with p+p collisions at s=7 TeV. We observe a freeze-out volume (or multiplicity) dependence of CFO schemes regardless of colliding ions. The 1CFO+γS, 1CFO and 2CFO schemes provide best description of the data when the dimension less quantity VT3 approximately satisfies the conditions VT3 <50, 50 < VT3 < 100 and VT3 > 100 respectively or the corresponding multiplicity satisfies the conditions dNch/dη <30, 30 < dNch/dη < 60 and dNch/dη >100 respectively.
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