Global ETD Search

101	Estudando plasmas não-Abelianos fortemente acoplados usando a dualidade gauge/gravity / Understanding strongly coupled non-Abelian plasmas using the gauge/gravity duality Finazzo, Stefano Ivo 02 March 2015 (has links) O estudo de teorias de calibre não-Abelianas fortemente acopladas, em especial de aspectos térmicos e fora do equilíbrio, é um problema central para a compreensão da Cromodinâmica Quântica (Quantum Chromodynamics - QCD) - em particular, para entender a evolução do Plasma de Quarks e Glúons (Quark-Gluon Plasma- QGP). A técnica mais promissora, QCD na rede, obteve sucesso ao tratar de fenômenos no vácuo e em equilíbrio térmico, como espectros e termodinâmica, mas enfrenta desafios consideráveis ao lidar com fenômenos fora do equilíbrio. Uma ferramenta adaptada para lidar com problemas envolvendo plasmas fortemente acoplados em tempo real é a dualidade gauge/gravity, que mapeia uma Teoria Quântica de Campos (Quantum Field Theory - QFT) fortemente acoplada em d dimensões em uma teoria de gravitação em d + 1 dimensões, a qual, de modo geral, é mais fácil de ser resolvida. Nesta tese, estudamos diversas aplicações da dualidade gauge/gravity em teorias não-Abelianas fortemente acopladas que modelam qualitativamente o QGP. Nós estudamos o cálculo holográfico do potencial entre um par quark-antiquark pesado (QQ) para dipolos QQ estáticos e se movendo com relação ao plasma, apresentando um formalismo geral para o cálculo da parte real e imaginária para uma grande classe de teorias gravitacionais duais. Um estudo da massa de Debye holográfica, baseado no maior comprimento de correlação de operadores ímpares por transformações de CT, foi empreendido, com aplicações em modelos bottom-up que reproduzem a termodinâmica da teoria de Yang-Mills SU(Nc) pura e da QCD. Para estes modelos, também calculamos vários coeficientes de transporte associados com o transporte de cargas no plasma, como a condutitividade elétrica, a constante de difusão de carga e coeficientes de transporte associados a uma teoria de hidrodinâmica relativística de segunda ordem. / The study of strongly coupled non-Abelian gauge theories, especially concerning their thermal and non-equilibrium aspects, is a central problem for understanding Quantum Chromodynamics (QCD) - in particular, to understand the evolution of the Quark-Gluon Plasma (QGP). The most successful approach, lattice QCD, succeeds in dealing with vacuum and equilibrium phenomena, such as spectra and thermodynamics, but faces a considerable challenge when it comes to with non-equilibrium phenomena. A tool adapted to deal with real time problems in strongly coupled plasmas is the gauge/gravity, which maps a strongly coupled d dimensional Quantum Field Theory (QFT) to a d + 1 dimensional theory of gravity, which, in general, is easier to solve. In this thesis, we study several applications of the gauge/gravity duality to strongly coupled non-Abelian theories which model qualitatively the QGP. We deal with the holographic evaluation of the heavy quark-antiquark (Q Q) potential for static and moving QQ dipoles, presenting a general formalism for the computation of the real and imaginary parts for a large class of dual theories of gravity. A study of the holographic Debye mass, based on the largest screening length of CT-odd operators, is pursued, with applications on bottom-up holographic models that reproduce the thermodynamics of pure SU(Nc) Yang-Mills theory and QCD. For these models, we also compute several transport coefficients associated with charge transport in the plasma, such as the electric conductivity, the charge diffusion constant, and transport coefficients associated with a theory of second order relativistic hydrodynamics. cromodinâmica quântica Dualidade gauge-gravity Gauge/gravity duality QCD ultrarelativistic heavy ion collisions
102	Study of the 12C+197Au reaction at relativistic energies with the INDRA 4pi multidetector Turzo, Ketel 08 November 2002 (has links) (PDF) L'expérience INDRA@GSI permet d'étudier les mécanismes de la réaction 12C+197Au en cinématique directe par l'utilisation du multidétecteur 4p INDRA et de faisceaux de 12C aux énergies relativistes. La source du spectateur de la cible est determinée pour les protons et les fragments légers, séparement de la source de cascade émettant des particules légeres et d'une source de haute energie émettant des fragments approximativement dans le centre de masse. Les spectres de protons en énergie cinétique sont comparés à des combinaisons du modèle de Cascade Intra-Nucléaire de Liège avec des modèles statistiques. Le scénario privilegié associe un processus de cascade avec une multifragmentation statistique. Les températures de pente des fragments determinées par une combinaison de fonctions de Maxwell-Boltzmann mettent en évidence une dépendance en énergie de faisceau, la centralité de la réaction étant donnée par la multiplicité de particules chargées. Les pions, detectés pour la première fois avec INDRA, et les protons rapides présentent une correlation avec le paramètre d'impact mais non avec la production de fragments. [PHYS:NUCL] Physics/Nuclear Theory heavy ion collisions INDRAS multidetector reaction mechanisms proton and fragment sources pions correlation functions
103	Do R_{AA} and R_{CP} Quantify Nuclear Medium Effects? Zaballa, Robert Adrian 19 November 2008 (has links) With the use of an incoherent binary nucleon-nucleon collision model of heavy ion collisions for simulating particle production, it is demonstrated that the nuclear modification factors, R_{AA} and R_{CP}, are less than unity for hard scattering in the absence of any nuclear modification effects. The nuclear modification factor R_{dAu} is also shown to approach or exceed unity only if p_T broadening is taken into account. With a simple phenomenological parameter, the mean nucleon energy loss fraction, this model yields particle distributions that are comparable to those of experiment. The nuclear geometry is described by the Glauber model, and particle production is simulated by the PYTHIA event generator. Heavy ion collisions p_T broadening Glauber model Hard scattering Nuclear modification factors Astrophysics and Astronomy Physics
104	Ion collimation and in-channel potential shaping using in-channel electrodes for hall effect thrusters Xu, Kunning Gabriel 26 June 2012 (has links) This work focuses on improving the thrust-to-power ratio of Hall effect thrusters using in-channel electrodes to reduce ion-wall neutralization and focus the ion beam. A higher thrust-to-power ratio would give Hall thrusters increased thrust with the limited power available on spacecraft. A T-220HT Hall thruster is modified in this work to include a pair of ring electrodes within inside the discharge channel. The electrodes are biased above anode potential to repel ions from the walls and toward the channel centerline. Theoretical analysis of ion loss factors indicate that ion-wall neutralizations remove almost 13% of the total ions produced. Reduced wall losses could significantly improve the thruster performance without increased discharge power or propellant consumption. The thruster performance, plume ion characteristics, and internal plasma contours are experimentally measured. The plume and internal plasma measurements are important to determine the cause of the performance changes. The thruster is tested in three conditions: no electrode bias, low bias (10 V), and high bias (30 V). The performance measurements show the electrodes do indeed improve the thrust and thrust-to-power ratio, the latter only at the low bias level. Adding bias increases the ion density and decreases the plume angle compared to the no bias case. The plume measurements indicate that the performance improvements at low bias are due to increased ion number density as opposed to increased ion energy. The increased ion density is attributed to reduced wall losses, not increased ionization. The in-channel measurements support this due to little change in the acceleration potential or the electron temperature. At the high bias level, a drop in thrust-to-power ratio is seen, even though a larger increase in thrust is observed. This is due to increased power draw by the electrodes. Plume measurements reveal the increased thrust is due to ion acceleration. The internal measurements show increased acceleration potential and electron energy which can lead to increased ionization. At the high bias condition, the electrodes become the dominant positive terminal in the thruster circuit. This causes the increased ion acceleration and the creation of domed potential contours that conform to the near-wall cusp-magnetic fields. The domed contours produce focused electric fields, which cause the decreased wall losses and plume angle. Electric propulsion Hall effect thrusters Secondary electrodes Plasma potential Hall effect Propulsion systems Engineering systems Electron-ion collisions
105	Estudando plasmas não-Abelianos fortemente acoplados usando a dualidade gauge/gravity / Understanding strongly coupled non-Abelian plasmas using the gauge/gravity duality Stefano Ivo Finazzo 02 March 2015 (has links) O estudo de teorias de calibre não-Abelianas fortemente acopladas, em especial de aspectos térmicos e fora do equilíbrio, é um problema central para a compreensão da Cromodinâmica Quântica (Quantum Chromodynamics - QCD) - em particular, para entender a evolução do Plasma de Quarks e Glúons (Quark-Gluon Plasma- QGP). A técnica mais promissora, QCD na rede, obteve sucesso ao tratar de fenômenos no vácuo e em equilíbrio térmico, como espectros e termodinâmica, mas enfrenta desafios consideráveis ao lidar com fenômenos fora do equilíbrio. Uma ferramenta adaptada para lidar com problemas envolvendo plasmas fortemente acoplados em tempo real é a dualidade gauge/gravity, que mapeia uma Teoria Quântica de Campos (Quantum Field Theory - QFT) fortemente acoplada em d dimensões em uma teoria de gravitação em d + 1 dimensões, a qual, de modo geral, é mais fácil de ser resolvida. Nesta tese, estudamos diversas aplicações da dualidade gauge/gravity em teorias não-Abelianas fortemente acopladas que modelam qualitativamente o QGP. Nós estudamos o cálculo holográfico do potencial entre um par quark-antiquark pesado (QQ) para dipolos QQ estáticos e se movendo com relação ao plasma, apresentando um formalismo geral para o cálculo da parte real e imaginária para uma grande classe de teorias gravitacionais duais. Um estudo da massa de Debye holográfica, baseado no maior comprimento de correlação de operadores ímpares por transformações de CT, foi empreendido, com aplicações em modelos bottom-up que reproduzem a termodinâmica da teoria de Yang-Mills SU(Nc) pura e da QCD. Para estes modelos, também calculamos vários coeficientes de transporte associados com o transporte de cargas no plasma, como a condutitividade elétrica, a constante de difusão de carga e coeficientes de transporte associados a uma teoria de hidrodinâmica relativística de segunda ordem. / The study of strongly coupled non-Abelian gauge theories, especially concerning their thermal and non-equilibrium aspects, is a central problem for understanding Quantum Chromodynamics (QCD) - in particular, to understand the evolution of the Quark-Gluon Plasma (QGP). The most successful approach, lattice QCD, succeeds in dealing with vacuum and equilibrium phenomena, such as spectra and thermodynamics, but faces a considerable challenge when it comes to with non-equilibrium phenomena. A tool adapted to deal with real time problems in strongly coupled plasmas is the gauge/gravity, which maps a strongly coupled d dimensional Quantum Field Theory (QFT) to a d + 1 dimensional theory of gravity, which, in general, is easier to solve. In this thesis, we study several applications of the gauge/gravity duality to strongly coupled non-Abelian theories which model qualitatively the QGP. We deal with the holographic evaluation of the heavy quark-antiquark (Q Q) potential for static and moving QQ dipoles, presenting a general formalism for the computation of the real and imaginary parts for a large class of dual theories of gravity. A study of the holographic Debye mass, based on the largest screening length of CT-odd operators, is pursued, with applications on bottom-up holographic models that reproduce the thermodynamics of pure SU(Nc) Yang-Mills theory and QCD. For these models, we also compute several transport coefficients associated with charge transport in the plasma, such as the electric conductivity, the charge diffusion constant, and transport coefficients associated with a theory of second order relativistic hydrodynamics. cromodinâmica quântica Dualidade gauge-gravity Gauge/gravity duality QCD ultrarelativistic heavy ion collisions
106	Proposta de novos observáveis para jatos reconstruídos em colisões entre íons pesados relativísticos / Proposal of new observables for the study of reconstructed jets in heavy ion collisions Gabriel Oliveira Valeriano de Barros 05 June 2013 (has links) O Plasma de Quarks e Glúons (Qgp), um meio denso e quente, pode ser produzido em laboratório a partir da colisão entre íons pesados relativísticos. Pode-se estudá-lo a partir da comparação entre jatos reconstruídos em tais eventos e aqueles reconstruídos em colisões próton-próton, uma vez que se espera que os pártons ao atravessarem o Qgp percam energia em função da interação com o meio, o chamado jet quenching. Este trabalho propõe dois novos observáveis no estudo de jatos reconstruídos em colisões entre íons pesados relativísticos: o espectro de jatos quasi-inclusivo e a evolução do espectro de jatos de recuo em função da partícula trigger. Mostra-se que conhecida a função de resolução do momento reconstruído do jato é possível obter o espectro verdadeiro desses observáveis a partir da técnica de deconvolução bayesiana iterativa. A técnica proposta é empregada em eventos de colisões núcleonúcleo realizadas nos aceleradores Rhic e Lhc cujos dados foram coletados pelas colaborações Star e Alice, respectivamente. Os resultados evidenciam a ocorrência do fenômeno de jet queching independentemente do sistema, da energia e da centralidade da colisão em um grande intervalo cinemático. / The Quark-Gluon Plasma (Qgp), a hot and dense medium, can be produced in laboratory by colliding relativistic heavy ion. This medium can be studied by the comparison of jets reconstructed in such events and those reconstructed in proton-proton collisions, once it is expected that partons lose energy when traversing the Qgp due to its interaction with the medium, the so-called jet quenching. This work proposes two new observables: the quasiinclusive jet spectrum and the evolution of the recoil jet spectrum as function of the trigger particle. It is shown that it is possible to obtain those spectra using iterative bayesian unfolding, which requires the resolution function for the reconstructed jet transverse momentum. This technique is applied to Star and Alice data which has been taken at Rhic and Lhc, respectively. The results indicate that jet quenching occurs in a very wide kinematic range, regardless the colliding system, its energy and centrality. Física de partículas Física nuclear Quark Heavy ion collisions Nuclear Physics Parcicle physics Quark
107	Inclusive J/psi production measurement in Pb-Pb collisions at sqrt{s_{NN}} = 2.76 TeV with the ALICE Muon Spectrometer / Mesure de la production inclusive de J/psi en collisions de Pb-Pb à sqrt{s_{NN}} = 2.76 TeV avec le spectromètre à muons d'ALICE Valencia Palomo, Lizardo 06 September 2013 (has links) La Chromodynamique Quantique prédit que la matière chaude et dense produite en collisions d'ions lourds ultra-relativistes, le Plasma de Quarks et de Gluons (QGP), se conduit comme un état déconfiné de quarks et gluons.ALICE est la seule expérience au LHC qui a été conçue et construite pour caractériser la physique du QGP. Le spectromètre à muons, un des détecteurs d'ALICE, est utilisé pour mesurer la production de quarkonia à rapidité en avant.Dans la thèse suivante, l'efficacité des chambres de trajectographie du spectromètre à muons est étudiée durant une année de pris des données. Les résultats obtenus des données réelles sont comparés avec des simulations pour calculer les incertitudes systématiques par rapport aux chambres de trajectographie.Une analyse complète de la production inclusive de J/psi --> mu^+ mu^- dans les collisions Pb-Pb 2011 est également presentée. L' étude inclut l'extraction du signal, normalisation et corrections d'acceptance et d'efficacité. Une partie importante est consacrée à quantifier les incertitudes systématiques liées aux différentes sources. Les résultats, R_{AA} et <p_{T}> , sont comparés avec des expériences précédentes et des modèles théoriques. / Quantum Chromodynamics predicts that the hot and dense matter produced in ultra-relativistic heavy-ion collisions, the Quark Gluon Plasma (QGP), behaves as a deconfined state of quarks and gluons. Since 1980's it was predicted that quarkonia are suppressed due to screening effects in the QGP, making quarkonia a good tool to probe the plasma.ALICE is the only experiment at the LHC that was designed and built to characterize the physics of the QGP. The muon spectrometer, one of the detectors in ALICE, is used to measure the quarkonia production at forward rapidity. In this thesis the efficiency of the tracking chambers of the muon spectrometer is studied along one year of data taking. The results obtained from real data are compared to simulations in order to compute the systematic uncertainties associated to the tracking apparatus.A complete analysis of the inclusive J/psi --> mu^+ mu^- production in the 2011 Pb-Pb collisions is also presented. The study includes the signal extraction, normalization and acceptance times efficiency corrections. An important part is dedicated to the quantify the systematic uncertainties arising from different sources. The resulting R_{AA} and <p_{T}> are compared to previous experiments and also to theoretical models. Plasma de Quarks et de Gluons LHC ALICE J/psi Collisions d'ions lourds Quark Gluon Plasma LHC ALICE J/psi Heavy-ion collisions
108	Two-Pion Intensity-Interferometry in Collisions of Au+Au at √sNN = 2.41 GeV measured with HADES Greifenhagen, Robert André Heinrich 01 February 2021 (has links) In this thesis high-statistics π⁻π⁻ and π⁺π⁺ femtoscopy data are presented for Au+Au collisions at √sNN =2.4 GeV, measured with the High Acceptance Di-Electron Spectrometer HADES located at the heavy-ion synchrotron SIS18 at GSI.Due to space-momentum correlations the technique of intensity interferometry allows only to measure regions of homogeneity where pairs of particles with certain momentum origin. The determination of the space-time extent of the corresponding emission sources is then only possible via a comparison to models.The purpose of this thesis is to provide a multi-differential data set as input for such models and calculations, to draw conclusions from the total spatial and temporal extension of the pion emitting source. More than two billion events of the 45 % most central collisions are analysed. A complex data-driven pair cut is established to account for the close-track deficits in the non-trivial hexagonal geometry of the HADES setup. The correlation function is studied in the longitudinally co-moving system using the Bertsch-Pratt parametrisation. The region of homogeneity, parametrised as three-dimensional Gaussian distribution, is studied in dependence on pair transverse momentum, rapidity, azimuthal emission angle with respect to the event plane, collision centrality, and beam energy. For all centralities and transverse momenta, a geometrical distribution of ellipsoidal shape is found in the plane perpendicular to the beam direction with the larger extension perpendicular to the reaction plane. For large transverse momenta, the corresponding eccentricity approaches the initial eccentricity. The eccentricity is smallest for most central collisions, where the shape is almost circular.Furthermore, a tilt of the source w.r.t. the beam axis is found.The magnitude of the tilt angle of the emission ellipsoid in the reaction plane decreases with increasing centrality and increasing transverse momentum. All source radii increase with centrality, largely exhibiting a linear rise with the cubic root of the number of participants. A substantial charge-sign difference of the source radii is found, appearing most pronounced at low transverse momentum, which is addressed to the central Coulomb potential generated by the electrical charge of the participating nucleons in the collision. The extracted source parameters agree well with a smooth extrapolation of the center-of-mass energy dependence established at higher energies, extending the corresponding excitation functions down towards a very low energy. / In dieser Arbeit werden femtoskopische π⁻π⁻- und π⁺π⁺-Daten mit hoher Statistik präsentiert, welche in Kollisionen von Au+Au bei einer Schwerpunktsenergie von √sNN =2.4 GeV pro Nukleonpaar mithilfe von HADES (Zwei-Elektronen Spektrometer mit hoher Akzeptanz) am Schwerionen-Synchrotron an der GSI gemessen wurden. Aufgrund von Orts-Impuls-Korrelationen können mittels der Methode der Intensitäts-Interferometry nur Homogenitätsbereiche gemessen werden, aus welchen Teilchenpaare mit bestimmten Impuls entspringen. Die Bestimmung der raum-zeitlichen Ausdehnung der entsprechenden Emissionsquelle ist dann nur über die Hinzunahme von Modellvergleichen möglich. Die Absicht dieser Arbeit ist es, einen multi-differenziellen Daten-Satz zur Verfügung zustellen, welcher als Eingabe für solche Modelle und Rechnungen genutzt werden kann, um dann Rückschlüsse auf die absolute räumliche und zeitliche Ausdehnung der Pionen-emittierenden Quelle ziehen zu können. Mehr als zwei Milliarden Ereignisse der 45 % zentralsten Kollisionen werden analysiert. Eine komplexe Daten-basierende Paarselektion wird eingeführt, um die Verluste nah beieinander verlaufender Teilchenspuren innerhalb des nicht-trivialen hexa-geometrischen HADES-Aufbaus zu berücksichtigen. Die Korrelationsfunktion wird im longitudinal mitbewegten Inertialsystem in Bertsch-Pratt-Parametrisierung untersucht. Der als dreidimensionales Ellipsoid parametrisierte Homogenitätsbereich wird in Abhängigkeit von Transversalimpuls, azimuthalem Emissionswinkel relativ zur Reaktionsebene und Rapidität des Paares sowie Zentralität der Kollision und der Strahlenergie untersucht. In allen Zentralitäts- und Transversalimpulsbereichen wird eine geometrische Verteilung mit elliptischer Form innerhalb der auf die Strahlachse bezogenen transversalen Ebene beobachtet, wobei die größte Ausdehnung senkrecht zur Reaktionsebene zeigt. Für große Transversalimpulse stimmt die zugehörige Exzentrizität mit derjenigen der initialen Nukleonenverteilung überein. Die Exzentrizität ist am kleinsten für die zentralsten Kollisionen, bei denen eine fast kreisrunde Form beobachtet wird. Des Weiteren ist eine Neigung der Emissionsquelle relativ zur Strahlachse feststellbar. Der Wert des Neigungswinkels des Ellipsoids innerhalb der Reaktionsebene verringert sich mit zunehmend zentraleren Kollisionen und steigendem Transversalimpuls. Alle Quellradien werden größer mit zunehmender Zentralität und zeigen einen nahezu linearen Anstieg mit der Kubikwurzel der Anzahl der Partizipanten. Ein beträchtlicher Unterschied der Quellradien bezogen auf das Ladungsvorzeichen der Pionen wird beobachtet, welcher am prägnantesten bei kleinen Transversalim\-pulsen auftritt. Dieser wird dem zentralem Coulomb-Potential zugeschrieben, welches durch die elektrische Ladung der an der Kollision teilnehmenden Nukleonen generiert wird. Die extrahierten Quellparameter stimmen gut mit glatten Extrapolationen der Schwerpunktsenergie-Abhängigkeit überein, welche bei höheren Strahlenergien fixiert wurden, und erweitern diese hinab bis zu sehr kleinen Energien. info:eu-repo/classification/ddc/530 ddc:530
109	Pre-equilibrium evolution effects on relativistic heavy-ion collision observables Liu, Jia January 2015 (has links) No description available. Physics Theoretical Physics Nuclear Physics relativistic heavy-ion collisions viscous hydrodynamics specific shear viscosity specific bulk viscosity
110	Photoproduction Processes as a Probe of the Strong Nuclear Force in Relativistic Heavy Ion Collisions at the LHC Gilbert, Benjamin Jacob January 2024 (has links) The intense electromagnetic fields surrounding highly charged, ultra-relativistic ions at the LHC provide an intense flux of quasi-real photons. This high-energy photon flux provides a precise probe of the structure of the nucleus in photonuclear interactions and a tool to precisely study the properties of photoproduction in two-photon interactions. This thesis presents recent results from studies of photoproduction processes in √𝒔_𝐍𝐍 = 5.02 TeV Pb+Pb collisions at the LHC, using data collected in 2015 and 2018. A measurement of the differential cross-section for photonuclear jet production is performed with an integrated luminosity of 1.72 nb⁻¹. This measurement is triple-differential in two different sets of kinematic variables ([𝐻_𝐓, 𝒙_𝐀, 𝒛_𝛾] and [𝐻_𝐓, 𝒚_jets, 𝒎_jets) which allow for a direct measurement of the kinematics of struck partons in the nuclear target, and it is fully unfolded in three dimensions. After performing detailed studies of the rate for nuclear breakup in these collisions, the photonuclear jet cross-sections agree with leading-order predictions at the level of 10%. The uncertainty on this measurement and full treatment of its correlated uncertainties will allow for it to significantly constrain the nuclear parton distributions over a wide region of parton kinematics. A measurement was also performed of dimuon production via two-photon fusion in Pb+Pb collisions with nuclear overlap. This measurement studied the relative deflection of muons in each pair, and its results indicated that these distributions are substantially modified as a function of collision centrality. This modification is mostly well-described by initial-state models, which improve the modelling of the photon flux by incorporating correlations between the collision impact parameter and photon 𝒑_𝐓. Additional studies were performed to constrain the potential impact of any deflections due to the presence of strong magnetic fields in the hot, dense medium produced in heavy ion collisions. Particles (Nuclear physics) Heavy ion collisions Jets (Nuclear physics) Photonuclear reactions Kinematics Partons Photons

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