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Relying on the existing estimates for the production cross sections of mini black holes in models with large extra dimensions, we review strategies for identifying those objects at collider experiments. We further consider a possible stable final state of such black holes and discuss their characteristic signatures. Keywords: Black holes
We present predictions for the pseudorapidity dependence of the azimuthal anisotropy parameters v1 and v2 of baryons and inclusive charged hadrons in Pb + Pb collisions at a LHC energy of sNN=5.5 TeV applying a microscopic transport model, namely the quark–gluon string model (QGSM) which has been recently extended for parton rearrangement and fusion processes. Pb + Pb collisions with impact parameters b=2.3 fm and b=8 fm have been simulated in order to investigate additionally the difference between central and semiperipheral configurations. In contrast to v1ch(η) at RHIC, the directed flow of charged hadrons shows a small normal flow alignment. The elliptic flow v2ch(η) turns out to be rather similar in shape for RHIC and LHC conditions, the magnitude however increases about 10–20% at the LHC, leading to the conclusion that the hydrodynamical limit will be reached.
We discuss the present collective flow signals for the phase transition to the quark-gluon plasma (QGP) and the collective flow as a barometer for the equation of state (EoS). We emphasize the importance of the flow excitation function from 1 to 50A GeV: here the hydrodynamicmodel has predicted the collapse of the v1-flow at ~ 10A GeV and of the v2-flow at ~ 40A GeV. In the latter case, this has recently been observed by the NA49 collaboration. Since hadronic rescattering models predict much larger flow than observed at this energy, we interpret this observation as potential evidence for a first order phase transition at high baryon density pB.
In this work we present a study of the influence of nucleus initializations on the event-by-event elliptic flow coefficient, v2. In most Monte-Carlo models, the initial positions of the nucleons in a nucleus are completely uncorrelated, which can lead to very high density regions. In a simple, yet more realistic model where overlapping of the nucleons is avoided, fluctuations in the initial conditions are reduced. However, v2 distributions are not very sensitive to the initialization choice.
Die transversale Betatronbewegung eines Ionenstrahls, genannt Tune, stellt neben der Strahlposition die wichtigste zu messende Strahleigenschaft für den stabilen Betrieb eines Kreisbeschleunigers dar. Die Einstellung des Tunes auf einen Arbeitspunkt unterliegt engen Grenzen, da eine Vielzahl resonanter Störungen existiert, die die Teilchenbewegung beeinflussen und somit Emittanzvergrößerung und Strahlverlust hervorrufen. Den gemessenen Tune mit hoher Auflösung in Zeit und Frequenz während der gesamten Beschleunigungsphase auszugeben ermöglicht eine Justierung der ionenoptischen Elemente der Strahlführung. Dadurch läßt sich die Teilchenzahl bis zur theoretischen Raumladungsgrenze erhöhen und darüber hinaus Teilchenverluste minimieren. Die Messungen wurden an Positionssonden (BPM) des Schwerionensynchrotrons SIS18 der "GSI Helmholtzzentrum für Schwerionenforschung GmbH" mit zwei verschiedenen Meßsystemen durchgeführt, was einen Vergleich der Systemauflösungen ermöglicht. Das Direkt Digitalisierende Meßsystem (DDM) wandelt das BPM-Elektrodensignal direkt nach der Verstärkerkette mit einer Rate von 125 MSa/s in digitale Daten um. Der Strahlschwerpunkt eines jeden Einzelbunches wird daraus mittels digitaler Prozessierung berechnet und durch Fouriertransformation dessen Frequenzspektrum bestimmt. Man erhält den fraktionalen Tune dadurch direkt im Basisband. Das am CERN entwickelte und für Parameter des SIS18 adaptierte Direct Diode Detection - System (DDD) zeigt ebenfalls den Tune im Basisband. Um den zu bearbeitenden Frequenzbereich erheblich zu reduzieren, werden bei diesem Verfahren die Bunchpeakwerte, die die Strahlschwingung enthalten, über ein RC-Element analog verzögert ausgegeben. Der erhaltene Tune kann daraus mit hoher Auflösung digitalisiert werden. In der vorliegenden Dissertation werden die Meßaufbauten, die digitale Prozessierung der BPM-Daten mittels neuer Algorithmen sowie die Auswertung und Berechnung des Tunes gezeigt. Es werden typische Tuneverläufe diskutiert und ein Arbeitsbereich definiert, bei dem stabile Tunemessungen mit S/N von 30-50 dB ohne meßbare Vergrößerung der Strahlemittanz möglich sind. Die Auflösung der Tunemessung beträgt δqy = 3.50 · 10−4 und δqx = 7.97 · 10−4 für Anregungskickwinkel im Arbeitsbereich. Darüber hinaus werden physikalische Anwendungen des Systems diskutiert, indem verschiedene Einflüsse von ionenoptischen- und Strahlparametern auf den Tuneverlauf gezeigt und ausgewertet werden.
Lattice simulations employing reweighting and Taylor expansion techniques have predicted a (m;T)-phase diagram according to general expectations, with an analytic quark-hadron crossover at m =0 turning into a first order transition at some critical chemical potential mE. By contrast, recent simulations using imgainary m followed by analytic continuation obtained a critical structure in the fmu;d;ms;T;mg parameter space favouring the absence of a critical point and first order line. I review the evidence for the latter scenario, arguing that the various raw data are not inconsistent with each other. Rather, the discrepancy appears when attempting to extract continuum results from the coarse (Nt =4) lattices simulated so far, and can be explained by cut-off effects. New (as yet unpublished) data are presented, which for Nf = 3 and on Nt = 4 confirm the scenario without a critical point. Moreover, simulations on finer Nt = 6 lattices show that even if there is a critical point, continuum extrapolation moves it to significantly larger values of mE than anticipated on coarse lattices.
The pseudoparticle approach is a numericalmethod to compute path integrals without discretizing spacetime. The basic idea is to consider only those field configurations, which can be represented as a linear superposition of a small number of localized building blocks (pseudoparticles), and to replace the functional integration by an integration over the pseudoparticle degrees of freedom. In previous papers we have successfully applied the pseudoparticle approach to SU(2) Yang-Mills theory. In this work we discuss the inclusion of fermionic fields in the pseudoparticle approach. To test our method, we compute the phase diagram of the 1+1-dimensional Gross-Neveu model in the large-N limit as well as the chiral condensate in the crystal phase.
Proceedings of 4th International Workshop "Critical Point and Onset of Deconfinement", July 9-13, 2007, Darmstadt, Germany: The multiplicity fluctuations of hadrons are studied within the statistical hadron-resonance gas model in the large volume limit. The role of quantum statistics and resonance decay effects are discussed. The microscopic correlator method is used to enforce conservation of three charges - baryon number, electric charge, and strangeness - in the canonical ensemble. In addition, in the micro-canonical ensemble energy conservation is included. An analytical method is used to account for resonance decays. The multiplicity distributions and the scaled variances for negatively and positively charged hadrons are calculated for the sets of thermodynamical parameters along the chemical freeze-out line of central Pb+Pb (Au+Au) collisions from SIS to LHC energies. Predictions obtained within different statistical ensembles are compared with the preliminary NA49 experimental results on central Pb+Pb collisions in the SPS energy range. The measured fluctuations are significantly narrower than the Poisson ones and clearly favor expectations for the micro-canonical ensemble. Thus, this is a first observation of the recently predicted suppression of the multiplicity fluctuations in relativistic gases in the thermodynamical limit due to conservation laws.