245 research outputs found
Core-corona separation in the UrQMD hybrid model
We employ the UrQMD transport + hydrodynamics hybrid model to estimate the
effects of a separation of the hot equilibrated core and the dilute corona
created in high energy heavy ion collisions. It is shown that the fraction of
the system which can be regarded as an equilibrated fireball changes over a
wide range of energies. This has an impact especially on strange particle
abundancies. We show that such a core corona separation allows to improve the
description of strange particle ratios and flow as a function of beam energy as
well as strange particle yields as a function of centrality.Comment: 10 pages, 11 figures, version accepted by PR
The QCD phase diagram and statistics friendly distributions
The preliminary STAR data for proton cumulants for central collisions at s=7.7GeV component proton multiplicity distribution. We show that this two-component distribution is statistics friendly in that factorial cumulants of surprisingly high orders may be extracted with a relatively small number of events. As a consequence the two-component model can be tested and verified right now with the presently available STAR data from the first phase of the RHIC beam energy scan
The application of the Quark-Hadron Chiral Parity-Doublet Model to neutron star matter
The Quark-Hadron Chiral Parity-Doublet model (QP) is applied to
calculate compact star properties in the presence of a deconfinement phase
transition. Within this model, a consistent description of nuclear matter
properties, chiral symmetry restoration, and a transition from hadronic to
quark and gluonic degrees of freedom is possible within one unified approach.
We find that the equation of state obtained is consistent with recent
perturbative quantum chromodynamics (QCD) results and is able to accommodate
observational constraints of massive and small neutron stars. Furthermore, we
show that important features of the equation of state, such as the symmetry
energy and its slope, are well within their observational constraints.Comment: 8 pages, 9 figures and 1 tabl
Hadronization conditions in relativistic nuclear collisions and the QCD pseudo-critical line
We compare the reconstructed hadronization conditions in relativistic nuclear
collisions in the nucleon-nucleon centre-of-mass energy range 4.7-2760 GeV in
terms of temperature and baryon-chemical potential with lattice QCD
calculations, by using hadronic multiplicities. We obtain hadronization
temperatures and baryon chemical potentials with a fit to measured
multiplicities by correcting for the effect of post-hadronization rescattering.
The post-hadronization modification factors are calculated by means of a
coupled hydrodynamical-transport model simulation under the same conditions of
approximate isothermal and isochemical decoupling as assumed in the statistical
hadronization model fits to the data. The fit quality is considerably better
than without rescattering corrections, as already found in previous work. The
curvature of the obtained "true" hadronization pseudo-critical line kappa is
found to be 0.0048 +- 0.0026, in agreement with lattice QCD estimates; the
pseudo-critical temperature at vanishing mu_B is found to be 164.3+-1.8 MeV.Comment: 9 pages, 2 figures. Minor corrections, version published in PL
Chiral Hadronic Mean Field Model including Quark Degrees of Freedom
In an approach inspired by Polyakov loop extended NJL models, we present a
nonlinear hadronic SU(3) sigma-omega mean field model augmented by quark
degrees of freedom. By introducing the effective Polyakov loop related scalar
field \Phi and an associated effective potential, the model includes all known
hadronic degrees of freedom at low temperatures and densities as well as a
quark phase at high temperatures and densities. Hadrons in the model exhibit a
finite volume in order to suppress baryons at high T and \mu. This ensures that
the right asymptotic degrees of freedom are attained for the description of
strongly interacting matter and allows to study the QCD phase diagram in a wide
range of temperatures and chemical potentials. Therefore, with this model it is
possible to study the phase transition of chiral restoration and deconfinement.
In this paper, the impact of quarks on the resulting phase diagram is shown.
The results from the chiral model are compared to recent data from lattice QCD.Comment: 25 pages, 10 figure
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