scholarly journals Strangeness freeze-out: role of system size and missing resonances

2018 ◽  
Vol 171 ◽  
pp. 14002
Author(s):  
Sandeep Chatterjee ◽  
Sabita Das ◽  
Ajay Kumar Dash ◽  
Debadeepti Mishra ◽  
Bedangadas Mohanty ◽  
...  
Keyword(s):  
Size Dependence ◽  
System Size ◽  
Conventional Approach ◽  
Strangeness Production ◽  
Additional Parameter ◽  
Theoretical Approaches ◽  
Missing Resonances ◽  
Freeze Out

The conventional approach to treat strangeness freezeout has been to consider a unified freezeout scheme where strangeness freezes out along with the nonstrange hadrons (1CFO), with or without an additional parameter accounting for out-of-equilibrium strangeness production (γS). Several alternate scenarios have been formulated lately. Here, we will focus on flavor dependent freezeout with early freezeout of strangeness (2CFO) in comparison to 1CFO and its variants with respect to the roles played by the system size and missing resonances predicted by different theoretical approaches but yet to be seen in experiments. In contrast to the performance of 1CFO with/without γS that is insensitive to system size, 2CFO exhibits a clear system size dependence-while for Pb+Pb the χ2/NDF is around 0-2, for smaller system size in p+Pb and p+p, the χ2/NDF> 5 and larger than 1CFO+γS. This clearly shows a system size dependence of the preference for the freezeout scheme, while 2CFO is preferred in Pb+Pb, 1CFO+γS is preferred in p+Pb and p+p. We have further investigated the role of the missing resonances on strangeness freezeout across SPS to LHC beam energies.

scholarly journals System-Size Dependence of Strangeness Production in Nucleus-Nucleus Collisions atsNN=17.3   GeV

2005 ◽  
Vol 94 (5) ◽  
Author(s):  
C. Alt ◽  
T. Anticic ◽  
B. Baatar ◽  
D. Barna ◽  
J. Bartke ◽  
...  
Keyword(s):  
Size Dependence ◽  
System Size ◽  
Strangeness Production

scholarly journals Role of system size in freeze-out conditions extracted from transverse momentum spectra of hadrons

2018 ◽  
Vol 98 (6) ◽  
Author(s):  
Ajay Kumar Dash ◽  
Ranbir Singh ◽  
Sandeep Chatterjee ◽  
Chitrasen Jena ◽  
Bedangadas Mohanty
Keyword(s):  
Transverse Momentum ◽  
System Size ◽  
Momentum Spectra ◽  
Transverse Momentum Spectra ◽  
Freeze Out

scholarly journals System size dependence of the non-monotonous pion freeze-out volume excitation function

Open Physics ◽  
2012 ◽  
Vol 10 (5) ◽  
Author(s):  
Qingfeng Li ◽  
Caiwan Shen ◽  
Marcus Bleicher
Keyword(s):  
Excitation Function ◽  
Local Minimum ◽  
Particle Production ◽  
Size Dependence ◽  
Transport Model ◽  
System Size ◽  
Charged Pions ◽  
String Formation ◽  
Hbt Correlation ◽  
Freeze Out

AbstractHanburry-Brown-Twiss (HBT) correlation functions and radii of negatively charged pions from C+C, Si+Si, Cu+Cu, and In+In at lower RHIC/SPS energies are calculated with the UrQMD transport model and the CRAB analyzing program. We find a minimum in the excitation function of the pion freeze-out volume at low transverse momenta and around E lab ∼ 20–30AGeV which can be related to the change from initial string emission to bulk emission from the created resonance matter. For small systems, we predict a local minimum in the excitation function of the HBT (freeze-out) volume which is explained by the competition of two mechanisms of the particle production, namely resonance decays and string formation/fragmentation.

scholarly journals SYSTEM SIZE DEPENDENCE OF FREEZE-OUT PROPERTIES AT RHIC

2007 ◽  
Vol 16 (07n08) ◽  
pp. 1800-1805 ◽  
Author(s):  
◽  
ANETA IORDANOVA ◽  
OLGA BARANNIKOVA ◽  
RICHARD HOLLIS
Keyword(s):  
Energy Density ◽  
Statistical Model ◽  
Systematic Study ◽  
Collision Energy ◽  
Size Dependence ◽  
Energy System ◽  
System Size ◽  
200 Gev ◽  
Star Experiment ◽  
Freeze Out

The STAR experiment at RHIC has measured identified π±, K± and [Formula: see text] spectra and ratios from [Formula: see text] and 200 GeV Cu + Cu collisions. The new Cu + Cu results are studied with hydro-motivated blast-wave and statistical model frameworks in order to characterize the freeze-out properties of this system. Along with measurements from Au + Au and p + p collisions, the obtained freeze-out parameters are discussed as a function of collision energy, system size, centrality and inferred energy density. This multi-dimensional systematic study reveals the importance of the collision geometry and furthers our understanding of the QCD phases.

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