OPUS 4 | Search

Nucleus-nucleus collisions at highest energies (1996)

Marcus Bleicher N. Amelin Steffen A. Bass Mathias Brandstetter Adrian Dumitru Christoph Ernst Lars Gerland Jens Konopka Christian Spieles Henning Weber L. A. Winckelmann Horst Stöcker Walter Greiner

The microscopic phasespace approach URQMD is used to investigate the stopping power and particle production in heavy systems at SPS and RHIC energies. We find no gap in the baryon rapidity distribution even at RHIC. For CERN energies URQMD shows a pile up of baryons and a supression of multi-nucleon clusters at midrapidity.

Hypermatter : properties and formation in relativistic nuclear collisions (1995)

Lars Gerland Christian Spieles Marcus Bleicher Panajotis Papazoglou Jörg Brachmann Adrian Dumitru Horst Stöcker Walter Greiner Jürgen Schaffner Carsten Greiner

The extension of the Periodic System into hitherto unexplored domains - anti- matter and hypermatter - is discussed. Starting from an analysis of hyperon and single hypernuclear properties we investigate the structure of multi-hyperon objects (MEMOs) using an extended relativistic meson field theory. These are contrasted with multi-strange quark states (strangelets). Their production mechanism is stud- ied for relativistic collisions of heavy ions from present day experiments at AGS and SPS to future opportunities at RHIC and LHC. It is pointed out that abso- lutely stable hypermatter is unlikely to be produced in heavy ion collisions. New attention should be focused on short lived metastable hyperclusters ( / 10 10s) and on intensity interferometry of multi-strange-baryon correlations.

"Soft'' transverse expansion and flow in a multi-fluid model without phase transition (1997)

Jörg Brachmann Adrian Dumitru Marcus Bleicher Joachim A. Maruhn Horst Stöcker Walter Greiner

Abstract: We study transverse expansion and directed flow in Au(11AGeV)Au reactions within a multi-fluid dynamical model. Although we do not employ an equation of state (EoS) with a first order phase transition, we find a slow increase of the transverse velocities of the nucleons with time. A similar behaviour can be observed for the directed nucleon flow. This is due to non-equilibrium e ects which also lead to less and slower conversion of longitudinal into transverse momentum. We also show that the proton rapidity distribution at CERN energies, as calculated within this model, agrees well with the preliminary NA44-data.

Probes for the early reaction dynamics of heavy ion collisions at AGS and SPS (1997)

Adrian Dumitru Jörg Brachmann Marcus Bleicher Joachim A. Maruhn Horst Stöcker Walter Greiner

We discuss the early evolution of ultrarelativistic heavy-ion collisions within a multi- fluid dynamical model. In particular, we show that due to the finite mean-free path of the particles compression shock waves are smeared out considerably as compared to the one-fluid limit. Also, the maximal energy density of the baryons is much lower. We discuss the time scale of kinetic equilibration of the baryons in the central region and its relevance for directed flow. Finally, thermal emission of direct photons from the fluid of produced particles is calculated within the three-fluid model and two other simple expansion models. It is shown that the transverse momentum and rapidity spectra of photons give clue to the cooling law and the early rapidity distribution of the photon source.

Fluctuations and inhomogenities of energy density and isospin in Pb + Pb at the SPS (1998)

Marcus Bleicher Lars Gerland Christian Spieles Adrian Dumitru Steffen A. Bass Mohamed Belkacem Mathias Brandstetter Christoph Ernst Ludwig Neise Sven Soff Henning Weber Horst Stöcker Walter Greiner

The main goal of heavy ion physics in the last fifteen years has been the search for the quark-gluon-plasma(QGP). Until now, unambigous experimental evidence for the QGP is missing.

Direct photons in Pb+Pb at CERN-SPS from microscopic transport theory (1997)

Adrian Dumitru Marcus Bleicher Steffen A. Bass Christian Spieles Ludwig Neise Horst Stöcker Walter Greiner

Direct photon production in central Pb+Pb collisions at CERN-SPS energy is calculated within the relativistic microscopic transport model UrQMD, and within distinctly di erent versions of relativistic hydrodynamics. We find that in UrQMD the local momentum distributions of the secondaries are strongly elongated along the beam axis initially. Therefore, the preequilibrium contribution dominates the photon spectrum at transverse momenta above H 1.5 GeV. The hydrodynamics prediction of a strong correlation between the temperature and radial expansion velocities on the one hand and the slope of the transverse momentum distribution of direct photons on the other hand thus is not recovered in UrQMD. The rapidity distribution of direct photons in UrQMD reveals that the initial conditions for the longitudinal expansion of the photon source (the meson fluid ) resemble rather boostinvariance than Landau-like flow.

Critical review of quark gluon plasma signatures (1999)

Stefan Scherer Steffen A. Bass Marcus Bleicher Mohamed Belkacem Larissa V. Bravina Jörg Brachmann Adrian Dumitru Christoph Ernst Lars Gerland Markus Hofmann Ludwig Neise Manuel Reiter Sven Soff Christian Spieles Henning Weber Eugene E. Zabrodin Detlef Zschiesche Joachim A. Maruhn Horst Stöcker Walter Greiner

Noneequilibrium models (three-fluid hydrodynamics and UrQMD) use to discuss the uniqueness of often proposed experimental signatures for quark matter formation in relativistic heavy ion collisions. It is demonstrated that these two models - although they do treat the most interesting early phase of the collisions quite differently(thermalizing QGP vs. coherent color fields with virtual particles) - both yields a reasonable agreement with a large variety of the available heavy ion data.

Direct emission of multiple strange baryons in ultrarelativistic heavy-ion collisions from the phase boundary (1999)

Adrian Dumitru Steffen A. Bass Marcus Bleicher Horst Stöcker Walter Greiner

We discuss a model for the space-time evolution of ultrarelativistic heavy-ion collisions which employs relativistic hydrodynamics within one region of the forward light-cone, and microscopic transport theory (i.e. UrQMD) in the complement. Our initial condition consists of a quark-gluon plasma which expands hydrodynamically and hadronizes. After hadronization the solution eventually changes from expansion in local equilibrium to free streaming, as determined selfconsistently by the interaction rates between the hadrons and the local expansion rate. We show that in such a scenario the inverse slopes of the mT -spectra of multiple strange baryons ( Xi,Omega) are practically una ected by the purely hadronic stage of the reaction, while the flow of p's and Lambda's increases. Moreover, we find that the rather soft transverse expansion at RHIC energies (due to a first-order phase transition) is not washed out by strong rescattering in the hadronic stage. The earlier kinetic freeze-out as compared to SPS-energies results in similar inverse slopes (of the mT -spectra of the hadrons in the final state) at RHIC and SPS energies.

Hadronic freeze-out following a first order hadronization phase transition in ultrarelativistic heavy-ion collisions (1999)

Steffen A. Bass Adrian Dumitru Marcus Bleicher Larissa V. Bravina Eugene E. Zabrodin Horst Stöcker Walter Greiner

We analyze the hadronic freeze-out in ultra-relativistic heavy ion collisions at RHIC in a transport approach which combines hydrodynamics for the early, dense, deconfined stage of the reaction with a microscopic non-equilibrium model for the later hadronic stage at which the hydrodynamic equilibrium assumptions are not valid. With this ansatz we are able to self-consistently calculate the freeze-out of the system and determine space-time hypersurfaces for individual hadron species. The space-time domains of the freeze-out for several hadron species are found to be actually four-dimensional, and di er drastically for the individual hadrons species. Freeze-out radii distributions are similar in width for most hadron species, even though the is found to be emitted rather close to the phase boundary and shows the smallest freeze- out radii and times among all baryon species. The total lifetime of the system does not change by more than 10% when going from SPS to RHIC energies.

Physics opportunities at RHIC and LHC (1999)

Stefan Scherer Steffen A. Bass Mohamed Belkacem Marcus Bleicher Jörg Brachmann Adrian Dumitru Christoph Ernst Lars Gerland Nils Hammon Markus Hofmann Jens Konopka Ludwig Neise Manuel Reiter Stefan Schramm Sven Soff Christian Spieles Henning Weber Detlef Zschiesche Joachim A. Maruhn Horst Stöcker Walter Greiner

Nonequilibrium models (three-fluid hydrodynamics, UrQMD, and quark molecular dynamics) are used to discuss the uniqueness of often proposed experimental signatures for quark matter formation in relativistic heavy ion collisions from the SPS via RHIC to LHC. It is demonstrated that these models - although they do treat the most interesting early phase of the collisions quite differently (thermalizing QGP vs. coherent color fields with virtual particles) -- all yield a reasonable agreement with a large variety of the available heavy ion data. Hadron/hyperon yields, including J/Psi meson production/suppression, strange matter formation, dileptons, and directed flow (bounce-off and squeeze-out) are investigated. Observations of interesting phenomena in dense matter are reported. However, we emphasize the need for systematic future measurements to search for simultaneous irregularities in the excitation functions of several observables in order to come close to pinning the properties of hot, dense QCD matter from data. The role of future experiments with the STAR and ALICE detectors is pointed out.

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