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The concept of Large Extra Dimensions (LED) provides a way of solving the Hierarchy Problem which concerns the weakness of gravity compared with the strong and electro-weak forces. A consequence of LED is that miniature Black Holes (mini-BHs) may be produced at the Large Hadron Collider in p+p collisions. The present work uses the CHARYBDIS mini-BH generator code to simulate the hadronic signal which might be expected in a mid-rapidity particle tracking detector from the decay of these exotic objects if indeed they are produced. An estimate is also given for Pb+Pb collisions.
Um Signaturen für die Erzeugung eines Quark-Gluon Plasmas zu untersuchen, wurden im Rahmen eines Energie-Scan Programmes mit dem Experiment NA49 am CERN-SPS Beschleunigerring bei 5 unterschiedlichen Strahlenergien Schwerionenkollisionen untersucht. Eine Möglichkeit, Informationen über die raum-zeitliche Struktur einer solchen Kollision zu erhalten, ist durch die Untersuchung von Bose-Einstein-Korrelationen gegeben. Die Untersuchung der Energieabhängigkeit dieser Korrelationen ist Gegenstand dieser Arbeit. Um die Dynamik der Kollisionen zu studieren, wird die Analyse für die einzelnen Energien in Abhängigkeit des mittleren transversalen Impulses und der Paarrapidität durchgeführt. In der Arbeit werden zunächst die theoretischen Grundlagen zur Untersuchung von Schwerionenkollisionen mit Hilfe von Bose-Einstein-Korrelationen erarbeitet. Nach einer kurzen Darstellung des Experimentes NA49 folgt eine detaillierte Beschreibung der Datenselektion und der verwendeten Analyse-Methode. Die Ergebnisse werden im Rahmen eines Modells zur Beschreibung einer Teilchenquelle interpretiert.
The transverse momentum dependence of the anisotropic flow v_2 for pi, K, nucleon, Lambda, Xi and Omega is studied for Au+Au collisions at sqrt s_NN = 200 GeV within two independent string-hadron transport approaches (RQMD and UrQMD). Although both models reach only 60% of the absolute magnitude of the measured v_2, they both predict the particle type dependence of v_2, as observed by the RHIC experiments: v_2 exhibits a hadron-mass hierarchy (HMH) in the low p_T region and a number-of-constituent-quark (NCQ) dependence in the intermediate p_T region. The failure of the hadronic models to reproduce the absolute magnitude of the observed v_2 indicates that transport calculations of heavy ion collisions at RHIC must incorporate interactions among quarks and gluons in the early, hot and dense phase. The presence of an NCQ scaling in the string-hadron model results suggests that the particle-type dependencies observed in heavy-ion collisions at intermediate p_T are related to the hadronic cross sections in vacuum rather than to the hadronization process itself, as suggested by quark recombination models.
Nuclear matter, that takes the form of protons and neutrons under normal conditions, is subject to a phase transition at high temperatures and densities, liberating the quarks and gluons that are usually confined in nucleons and creating a medium of free partons: the Quark-Gluon-Plasma. It is generally believed that this state of matter can be created in relativistic collisions of heavy nuclei. The study of the medium created in these collisions is the subject of heavy-ion physics. One topic within this field are particles with high transverse momentum, that are created in initial hard collisions between partons of the incoming nuclei. The energetic partons lose energy due to interactions with the medium before they fragment into a jet of hadrons. Due to momentum conservation, these jets are usually created as back-to-back pairs, or less commonly as three-jet or photon-jet events, where a single jet is balanced by a hard photon. The energy loss can be measured using correlations between particles with high transverse momenta. A trigger particle is selected with very high transversemomentum and the distribution of the azimuthal angle of associated particles in the same event is studied, relative to the azimuth of the trigger particle.These azimuthal correlations show a peak for opening angles around 0 from particles selected from the same jet, and a second peak at opening angles around 180 degrees from back-to-back di-jets. Random combinations with the underlying event generate a flat background, extending over the full range of opening angles. The STAR experiment observed a modification of these correlations in central Au+Au collisions, where trigger particles with 4GeV < pT(trigger) < 6GeV and associated particles with 2GeV < pT(trigger) < 4GeV were selected. A strong suppression has been observed for away-side correlations in central Au+Au collisions, relative to p+p, d+Au and peripheral Au+Au data. This can be explained by assuming two partons going in opposite directions, where at least one has to travel a large distance through the medium, causing energy loss and effectively removing the event from the analysis. For near-side correlations, no significant modification has been observed, which can be explained by surface emission, assuming that the observed jets have travelled only a short distance in themedium, not leaving enough time for interactions with the medium. Both trigger- and associated particles in a correlation analysis with charged hadrons are subject to modifications due to the medium. This can be avoided by using photon-jet events instead of di-jets, because the photon does not interact with the medium and therefore provides the best available measure of the properties of the opposite jet in the presence of the underlying event. This thesis studies azimuthal correlations between regions of high energy deposition in the electro-magnetic calorimeter as trigger- and charged tracks as associated particles. The data sample had been enriched by online event selection, allowing for the selection of trigger particles with a transverse energy of more than 10GeV and associated particles with more than 2,3 or 4 GeV. The away-side yield per trigger particle is strongly suppressed like in correlations between charged particles. The near-side yield is also reduced by about a factor two, clearly different from charged correlations. The trigger particles are a mixture of photon pairs from the decays of neutral pions and single photons, mainly from photon-jet events, with small contributions from other hadron decays and fragmentation photons. Pythia simulations predict a ratio of neutral pions to prompt photons of 3.5:1 in p+p collisions with the same cuts as in the presented analysis. Single particle suppression further reduces this ratio in central Au_Au collisions, down to about 0.8:1, indicating that the majority of trigger particles in central Au+Au collisions are prompt photons. The increasing fraction of prompt photon triggers without an accompanying jet and therefore zero associated yield reduces the average yield per trigger particle. The magnitude of the observed effect agrees well with the expectation from Pythia simulations and the assumption of a single particle suppression by a factor 4-5. An analysis of away-side correlations is more difficult, because both photon-jet and di-jet events contribute. The aim is the separation of these two contributions. As a clear separation is not possible with the available dataset, a comparison with two different scenarios is given, where a surprisingly small suppression by only a factor of about 5 is favoured for both dijet- and photon-jet-correlations. A separate measurement of both contributions will be possible by a shower-shape analysis with the EM calorimeter or a comparison with charged correlations in the same kinematic region.
In der vorliegenden Arbeit wird die Kopplung von Bloch- und Zyklotron-Oszillationen in Halbleiterübergittern unter dem Einfluss eines elektrischen und magnetischen Feldes zeitaufgelöst-elektro-optisch untersucht. Hierbei hängen sowohl die Stärke der Bloch-Zyklotron-Kopplung als auch die Charakteristika der kohärenten Ladungsträgerbewegung sensitiv von der relativen Anordnung der äußeren Felder ab. Bei gekreuzter Feldanordnung wird der Kohärente Hall-Effekt beobachtet. Semiklassisch lässt sich die Ladungsträgerdynamik in diesem Fall mit der Bewegungsgleichung eines nicht getriebenen, ungedämpften Pendels beschreiben. Abhängig vom Verhältnis E/B der äußeren Feldstärken lassen sich zwei Bewegungsregime mit gegensätzlicher Feldabhängigkeit der Frequenz der Ladungsträgeroszillationen unterscheiden. Bei schiefer Feldanordnung kommt es durch die nichtlineare Kopplung der Bloch-Oszillation mit der Zyklotron-Oszillation in der Übergitterebene zu einer phasenempfindlichen Gleichrichtung der transienten Oszillationen entlang der Wachstumsrichtung, wobei man in Resonanz eine Überhöhung dieses selbstinduzierten Gleichstroms beobachtet. In Anlehnung an ein analoges Phänomen, das an Josephson-Kontakten beobachtet wird, sprechen wir hierbei vom Fiske-Effekt. Für die räumliche Auslenkung X("unendlich") entlang der Wachstumsrichtung nach Abklingen der Kohärenz kann im Rahmen einer analytischen semiklassischen Näherung ein geschlossener Ausdruck angegeben werden. Die zeitaufgelösten Experimente zur Bloch-Zyklotron-Kopplung werden an zwei GaAs/Al0,3Ga0,7As-Übergitterstrukturen mit unterschiedlicher Quantentopfbreite durchgeführt. Im Spezialfall der gekreuzten Feldanordnung wird der Kohärente Hall-Effekt anhand der Existenz zweier Bewegungsregime mit ihrem charakteristischen Frequenz- und Dephasierungsverhalten in Abhängigkeit der äußeren Felder nachgewiesen und die lineare Abhängigkeit des Magnetfeldes am Übergang zwischen den Bewegungsregimen vom elektrischen Feld gezeigt. Die gleichermaßen prognostizierte Zunahme der Intensität höherer harmonischer Moden der Ladungsträgeroszillationen in der Nähe des Übergangs wird jedoch in der elektro-optischen Respons nicht beobachtet, wenngleich die verwendeten elektro-optischen Messtechniken im Vergleich zur Terahertz-Emissionsspektroskopie zur Untersuchung des Übergangsbereichs und höher frequenter Oszillationen prinzipiell besser geeignet sein sollten. Hierbei bestehende Einschränkungen werden diskutiert. Der für den Fall der schiefen Feldanordnung vorhergesagte selbstinduzierte Gleichstrom manifestiert sich experimentell in einem resonanzartigen Verlauf des elektro-optischen Signals nach Abklingen der Oszillationen in Abhängigkeit des Magnetfeldes. Durch Vergleich mit dem analytisch hergeleiteten Ausdruck für die räumliche Auslenkung lassen sich hieraus die relevanten Dämpfungskonstanten abschätzen und durch iterative Anpassung bestimmen. Die bei schiefer Feldanordnung mittels elektro-optischer Spektroskopie gemessenen Signale weisen nach Abklingen der kohärenten Ladungsträgeroszillationen nur einen sehr schwachen Driftanteil auf. Eine schlüssige Erklärung für diese Beobachtung ergibt sich, wenn bei der Behandlung der Ladungsträgerdynamik die Impuls- und Energierelaxation des Bloch-Oszillators unterschieden werden und eine sehr kleine Energiedämpfung angenommen wird.
The phase structure of the scalar field theory with arbitrary powers of the gradient operator and a local non-analytic potential is investigated by the help of the RG in Euclidean space. The RG equation for the generating function of the derivative part of the action is derived. Infinitely many non-trivial fixed points of the RG transformations are found. The corresponding effective actions are unbounded from below and do probably not exhibit any particle content. Therefore they do not provide physically sensible theories.
Gravitational radiation from ultra high energy cosmic rays in models with large extra dimensions
(2006)
The effects of classical gravitational radiation in models with large extra dimensions are investigated for ultra high energy cosmic rays (CRs). The cross sections are implemented into a simulation package (SENECA) for high energy hadron induced CR air showers. We predict that gravitational radiation from quasi-elastic scattering could be observed at incident CR energies above 10^9 GeV for a setting with more than two extra dimensions. It is further shown that this gravitational energy loss can alter the energy reconstruction for CR energies E_CR > 5 10^9 GeV.
Elliptic flow analysis at RHIC with the Lee-Yang Zeroes method in a relativistic transport approach
(2006)
The Lee-Yang zeroes method is applied to study elliptic flow (v_2) in Au+Au collisions at sqrt s =200 A GeV, with the UrQMD model. In this transport approach, the true event plane is known and both the nonflow effects and event-by-event v_2 fluctuations exist. Although the low resolutions prohibit the application of the method for most central and peripheral collisions, the integral and differential elliptic flow from the Lee-Yang zeroes method agrees with the exact v_2 values very well for semi-central collisions.
The experimental signatures of TeV-mass black hole (BH) formation in heavy ion collisions at the LHC is examined. We find that the black hole production results in a complete disappearance of all very high p_T (> 500 GeV) back-to-back correlated di-jets of total mass M > M_f ~ 1 TeV. We show that the subsequent Hawking-decay produces multiple hard mono-jets and discuss their detection. We study the possibility of cold black hole remnant (BHR) formation of mass ~ M_f and the experimental distinguishability of scenarios with BHRs and those with complete black hole decay. Due to the rather moderate luminosity in the first year of LHC running the least chance for the observation of BHs or BHRs at this early stage will be by ionizing tracks in the ALICE TPC. Finally we point out that stable BHRs would be interesting candidates for energy production by conversion of mass to Hawking radiation.