214 research outputs found
Event-by-event background in estimates of the chiral magnetic effect
In terms of the parton-hadron-string-dynamics (PHSD) approach - including the
retarded electromagnetic field - we investigate the role of fluctuations of the
correlation function in the azimuthal angle of charged hadrons that is
expected to be a sensitive signal of local strong parity violation. For the
early time we consider fluctuations in the position of charged spectators
resulting in electromagnetic field fluctuations as well as in the position of
participant baryons defining the event plane. For partonic and hadronic phases
in intermediate stages of the interaction we study the possible formation of
excited matter in electric charge dipole and quadrupole form as generated by
fluctuations. The role of the transverse momentum and local charge conservation
laws in the observed azimuthal asymmetry is investigated, too. All these
above-mentioned effects are incorporated in our analysis based on
event-by-event PHSD calculations. Furthermore, the azimuthal angular
correlations from Au+Au collisions observed in the recent STAR measurements
within the RHIC Beam-Energy-Scan (BES) program are studied. It is shown that
the STAR correlation data at the collision energies of = 7.7
and 11.5 GeV can be reasonably reproduced within the PHSD. At higher energies
the model fails to describe the correlation data resulting in an
overestimation of the partonic scalar field involved. We conclude that an
additional transverse anisotropy fluctuating source is needed which with a
comparable strength acts on both in- and out-of-plane components.Comment: 20 pages, 19 figures, to be published in Phys. Rev.
Relativistic Heavy-Ion Collisions within 3-Fluid Hydrodynamics: Hadronic Scenario
A 3-fluid hydrodynamic model for simulating relativistic heavy-ion collisions
is introduced. Alongside with two baryon-rich fluids, the new model considers
time-delayed evolution of a third, baryon-free (i.e. with zero net baryonic
charge) fluid of newly produced particles. Its evolution is delayed due to a
formation time, during which the baryon-free fluid neither thermalizes nor
interacts with the baryon-rich fluids. After the formation it starts to
interact with the baryon-rich fluids and quickly gets thermalized. Within this
model with pure hadronic equation of state, a systematic analysis of various
observables at incident energies between few and about 160A GeV has been done
as well as comparison with results of transport models. We have succeeded to
reasonably reproduce a great body of experimental data in the incident energy
range of E_{lab} = (1-160)A GeV. The list includes proton and pion rapidity
distributions, proton transverse-mass spectra, rapidity distributions of Lambda
and antiLambda hyperons, elliptic flow of protons and pions (with the exception
of proton v2 at 40A GeV), multiplicities of pions, positive kaons, phi-mesons,
hyperons and antihyperons, including multi-strange particles. This agreement is
achieved on the expense of substantial enhancement of the interflow friction as
compared to that estimated proceeding from hadronic free cross sections.
However, we have also found out certain problems. The calculated yield of K^-
is approximately by a factor of 1.5 higher than that in the experiment. We have
also failed to describe directed transverse flow of protons and pion at E_{lab}
> 40A GeV. This failure apparently indicates that the used EoS is too hard and
thereby leaves room for a phase transition.Comment: 30 pages, 20 figures, 2 tables. Version accepted for publication in
Phys. Rev.
Estimate of the magnetic field strength in heavy-ion collisions
Magnetic fields created in the noncentral heavy-ion collision are studied
within a microscopic transport model, namely the Ultrarelativistic Quantum
Molecular Dynamics model (UrQMD). Simulations were carried out for different
impact parameters within the SPS energy range ( GeV) and
for highest energies accessible for RHIC. We show that the magnetic field
emerging in heavy-ion collisions has the magnitude of the order of for the SPS energy range and for the RHIC
energies. The estimated value of the magnetic field strength for the LHC energy
amounts to .Comment: 8 pages, 11 figure
Multifragmentation of non-spherical nuclei : Analysis of central Xe + Sn collisions at 50 MeV/nucl
The influence of shape of expanding and rotating source on various
characteristics of the multifragmentation process is studied. The analysis is
based on the extension of the statistical microcanonical multifragmentation
model. The comparison with the data is done for central Xe+Sn collisions at 50
A MeV as measured by INDRA Collaboration.Comment: 9 pages, 2 figures; Talk given at the XXVII International Workshop on
Gross Properties of Nuclei and Nuclear Excitation, Hirschegg (Austria),
January 17 - 23, 199
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