984 research outputs found

    System Size and Energy Dependence of Dilepton Production in Heavy-Ion Collisions at SIS Energies

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    We study the dilepton production in heavy-ion collisions at energies of 1-2 AGeV as well as in proton induced pp, pn, pd and p+A reactions from 1 GeV up to 3.5 GeV. For the analysis we employ three different transport models - the microscopic off-shell Hadron-String-Dynamics (HSD) transport approach, the Isospin Quantum Molecular Dynamics (IQMD) approach as well as the Ultra-relativistic Quantum Molecular Dynamics (UrQMD) approach. We confirm the experimentally observed enhancement of the dilepton yield (normalized to the multiplicity of neutral pions Nπ0N_{\pi^0}) in heavy-ion collisions with respect to that measured in NN=(pp+pn)/2NN = (pp+pn)/2 collisions. We identify two contributions to this enhancement: a) the pNpN bremsstrahlung which scales with the number of collisions and not with the number of participants, i.e. pions; b) the dilepton emission from intermediate Δ\Delta's which are part of the reaction cycles Δ→πN;πN→Δ\Delta \to \pi N ; \pi N \to \Delta and NN→NΔ;NΔ→NNNN\to N\Delta; N\Delta \to NN. With increasing system size more generations of intermediate Δ\Delta's are created. If such Δ\Delta decays into a pion, the pion can be reabsorbed, however, if it decays into a dilepton, the dilepton escapes from the system. Thus, experimentally one observes only one pion (from the last produced Δ\Delta) whereas the dilepton yield accumulates the contributions from all Δ\Delta's of the cycle. We show as well that the Fermi motion enhances the production of pions and dileptons in the same way. Furthermore, employing the off-shell HSD approach, we explore the influence of in-medium effects like the modification of self-energies and spectral functions of the vector mesons due to their interactions with the hadronic environment.Comment: 46 pages, 48 figures, version to be published in Phys. Rev.

    Statistical Mechanics of semi-classical colored Objects

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    A microscopic model of deconfined matter based on color interactions between semi-classical quarks is studied. A hadronization mechanism is imposed to examine the properties and the disassembly of a thermalized quark plasma and to investigate the possible existence of a phase transition from quark matter to hadron matter.Comment: Submitted to Phys. Lett.

    The Origin of Transverse Flow at the SPS

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    We study the transverse expansion in central Pb+Pb collisions at the CERN SPS. Strong collective motion of hadrons can be created. This flow is mainly due to meson baryon rescattering. It allows to study the angular distribution of intermediate mass meson baryon interactions.Comment: submitted to Phys. Lett.

    Transition to resonance-rich matter in heavy ion collisions at RHIC energies

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    The equilibration of hot and dense nuclear matter produced in the central region in central Au+Au collisions at s=200\sqrt{s}=200 AGeV is studied within the microscopic transport model UrQMD. The pressure here becomes isotropic at t≈5t \approx 5 fm/c. Within the next 15 fm/c the expansion of the matter proceeds almost isentropically with the entropy per baryon ratio S/A≈150S/A \approx 150. During this period the equation of state in the (P,ϵ)(P,\epsilon)-plane has a very simple form, P=0.15ϵP=0.15 \epsilon. Comparison with the statistical model (SM) of an ideal hadron gas reveals that the time of ≈20\approx 20 fm/cc may be too short to attain the fully equilibrated state. Particularly, the fractions of resonances are overpopulated in contrast to the SM values. The creation of such a long-lived resonance-rich state slows down the relaxation to chemical equilibrium and can be detected experimentally.Comment: Talk at the conference Strangeness'2000, to be published in J. of Phys.

    Strangeness dynamics and transverse pressure in relativistic nucleus-nucleus collisions

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    We investigate hadron production as well as transverse hadron spectra from proton-proton, proton-nucleus and nucleus-nucleus collisions from 2 A⋅A\cdotGeV to 21.3 A⋅A\cdotTeV within two independent transport approaches (HSD and UrQMD) that are based on quark, diquark, string and hadronic degrees of freedom. The comparison to experimental data on transverse mass spectra from pppp, pApA and C+C (or Si+Si) reactions shows the reliability of the transport models for light systems. For central Au+Au (Pb+Pb) collisions at bombarding energies above ∼\sim 5 A⋅\cdotGeV, furthermore, the measured K±K^{\pm} transverse mass spectra have a larger inverse slope parameter than expected from the default calculations. We investigate various scenarios to explore their potential effects on the K±K^\pm spectra. In particular the initial state Cronin effect is found to play a substantial role at top SPS and RHIC energies. However, the maximum in the K+/π+K^+/\pi^+ ratio at 20 to 30 A⋅\cdotGeV is missed by ~40% and the approximately constant slope of the K±K^\pm spectra at SPS energies is not reproduced either. Our systematic analysis suggests that the additional pressure - as expected from lattice QCD calculations at finite quark chemical potential μq\mu_q and temperature TT- should be generated by strong interactions in the early pre-hadronic/partonic phase of central Au+Au (Pb+Pb) collisions.Comment: 20 pages, 15 figures, Phys. Rev. C, in pres

    Particle number fluctuations in high energy nucleus-nucleus collisions from microscopic transport approaches

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    Event-by-event multiplicity fluctuations in nucleus-nucleus collisions are studied within the HSD and UrQMD transport models. The scaled variances of negative, positive, and all charged hadrons in Pb+Pb at 158 AGeV are analyzed in comparison to the data from the NA49 Collaboration. We find a dominant role of the fluctuations in the nucleon participant number for the final hadron multiplicity fluctuations. This fact can be used to check di erent scenarios of nucleus-nucleus collisions by measuring the final multiplicity fluctuations as a function of collision centrality. The analysis reveals surprising e ects in the recent NA49 data which indicate a rather strong mixing of the projectile and target hadron production sources even in peripheral collisions. PACS numbers: 25.75.-q,25.75.Gz,24.60.-
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