611 research outputs found
Is the centrality dependence of the elliptic flow and of the average in RHIC experiments more than a Core-Corona Effect?
Recently we have shown that the centrality dependence of the multiplicity of
different hadron species observed in RHIC and SPS experiments can be well
understood in a simple model, dubbed core-corona model. There it is assumed
that those incoming nucleons which scatter only once produce hadrons as in pp
collisions whereas those which scatter more often form an equilibrated source
which decays according to phase space. In this article we show that also
kinematical variables like as well as
and
between peripheral heavy ion collisions and pp collisions for different
hadrons, reproduced in this model, questions whether hydrodynamical
calculations are the proper tool to describe non-central heavy ion collision.
The model explains as well the centrality dependence of
of charged particles, considered up to now as an observable which allows to
determine the viscosity of the quark gluon plasma. The observed dependence of
on the particle species is a simple
consequence of the different ratios of core to corona particles.Comment: Figure added, text partially rewritten, interpretation of v2 of
identified particle
Beyond Mean Field Confrontation of Different Models with High Transverse Momentum Proton Spectra
Several models have been proposed to simulate heavy ion reactions beyond the
mean field level. The lack of data in phase space regions which may be
sensitive to different treatments of fluctuations made it difficult to judge
these approaches. The recently published high energy proton spectra, measured
in the reaction 94 AMeV Ar + Ta, allow for the first time for a comparison of
the models with data. We find that these spectra are reproduced by Quantum
Molecular Dynamics (QMD) and Boltzmann Uehling Uhlenbeck (BUU) calculations.
Models like Boltzmann Langevin (BL) in which additional fluctuations in
momentum space are introduced overpredict the proton yield at very high
energies. The BL approach has been successfully used to describe the recently
measured very subthreshold kaon production assuming that the fluctuations
provide the necessary energy to overcome the threshold in two body collisions.
Our new findings suggest that the very subthreshold kaon production cannot be
due to two body scattering and thus remains a open problem.Comment: 5 pages, 3 figures (eps), revte
Multifragmentation - what the data tell us about the different models
We discuss what the presently collected data tell us about the mechanism of
multifragmentation by comparing the results of two different models, which
assume or show an opposite reaction scenario, with the recent high statistics
experiments performed by the INDRA collaboration. We find that the
statistical multifragmentation model and the dynamical Quantum Molecular
Dynamics approach produce almost the same results and agree both quite well
with experiment. We discuss which observables may serve to overcome this
deadlock on the quest for the reaction mechanism. Finally we proof that even if
the system is in equilibrium, the fluctuation of the temperature due to the
smallness of the system renders the caloric curve useless for the proof of a
first order phase transition.Comment: Proceedings CRIS 200
On the flow of kaons produced in relativistic heavy ion collisions
We investigate the different contributions to the in-plane flow of K+ mesons
observed recently by the FOPI collaboration in the reaction Ni(1.93 AGeV)+Ni.
Due to the kinematics of the three body phase space decay the flow of kaons
produced in baryon-baryon interactions is smaller than that of the baryons in
the entrance channel. On the contrary, in pi N interactions the flow of the
sources and of the kaons are identical. Therefore the total kaon flow depends
on the relative number of Delta N -> K+ and pi N -> K+ reactions and hence on
the lifetime of the Delta, in addition to the already known dependence on the
potential interaction interaction of the kaons with the nuclear environment.Comment: 11 pages, 10 figures, submitted to NP
and Spectra for Au+Au Collisions at = 200 GeV from STAR, PHENIX and BRAHMS in Comparison to Core-Corona Model Predictions
Based on results obtained with event generators we have launched the
core-corona model. It describes in a simplified way but quite successfully the
centrality dependence of multiplicity and of identified particles
observed in heavy-ion reaction at beam energies between = 17 GeV and
200 GeV. Also the centrality dependence of the elliptic flow, , for all
charged and identified particles could be explained in this model. Here we
extend this analysis and study the centrality dependence of single particle
spectra of and measured by the PHENIX, STAR and BRAHMS
collaborations. We find that also for these particles the analysis of the
spectra in the core-corona model suffers from differences in the data published
by the different experimental groups, notably for the pp collisions. As for
protons and for each experience the data agree well with the prediction
of the core-corona model but the value of the two necessary parameters depends
on the experiments. We show as well that the average momentum as a function of
the centrality depends in a very sensitive way on the particle species and may
be quite different for particles which have about the same mass. Therefore the
idea to interpret this centrality dependence as a consequence of a collective
expansion of the system, as done in blast way fits may be premature.Comment: Invited talk to the CPOD conference Dubna August 201
Radiative energy loss of relativistic charged particles in absorptive media
We determine the energy loss spectrum per time-interval of a relativistic
charge traversing a dispersive medium. Polarization and absorption effects in
the medium are modelled via a complex index of refraction. We find that the
spectrum amplitude becomes exponentially damped due to absorption mechanisms.
Taking explicitly the effect of multiple scatterings on the charge trajectory
into account, we confirm results obtained in a previous work.Comment: 4 pages, Proceedings of the 5th International Conference on Hard and
Electromagnetic Probes of High-Energy Nuclear Collisions (Hard Probes 2012),
27 May - 1 June 2012, Cagliari, Ital
Towards an understanding of the RHIC single electron data
High transverse momentum () single non-photonic electrons which have
been measured in the RHIC experiments come dominantly from heavy meson decay.
The ratio of their spectra in pp and AA collisions ()
reveals the energy loss of heavy quarks in the environment created by AA
collisions. Using a fixed coupling constant and the Debye mass () as infrared regulator perturbative QCD (pQCD) calculations are not able to
reproduce the data, neither the energy loss nor the azimuthal
distribution. Employing a running coupling constant and replacing the Debye
mass by a more realistic hard thermal loop (HTL) calculation we find a
substantial increase of the collisional energy loss which brings the
distribution as well as to values close to the experimental ones
without excluding a contribution from radiative energy loss.Comment: Accepted for publication in Physical Review
Analysis of Dilepton Invariant Mass Spectrum in C+C at 2 and 1 AGeV
Recently the HADES collaboration has published the invariant mass spectrum of
pairs, dN/dM, produced in C+C collisions at 2 AGeV. Using
electromagnetic probes, one hopes to get in this experiment information on
hadron properties at high density and temperature. Simulations show that firm
conclusions on possible in-medium modifications of meson properties will only
be possible when the elementary meson production cross sections, especially in
the pn channel, as well as production cross sections of baryonic resonances are
better known. Presently one can conclude that a) simulations overpredict by far
the cross section at if free production
cross sections are used and that b) the upper limit of the decay into
is smaller than the present upper limit of the Particle Data Group.
This is the result of simulations using the Isospin Quantum Molecular Dynamics
(IQMD) approach.Comment: 28 pages, 15 figures, 3 tables, ps file recommende
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