Global ETD Search

1	A Search For New Physics Using tt(bar) Resonances in the Lepton Plus Jets Channel at √(s) = 8 TeV in 20 fb⁻¹ of pp Collision Data at the ATLAS Experiment Veatch, Jason Robert January 2015 (has links) Many Beyond Standard Model theories predict particles that couple strongly to top/anti-top quark pairs. This makes tt(bar) a promising signature for new physics searches. The analysis presented in this dissertation uses 20.3 fb⁻¹ of √s = 8 TeV pp collision data from the ATLAS experiment to search for evidence of new physics in the single-lepton plus jets tt(bar) decay channel. This is done by requiring one electron or muon, large missing transverse momentum and additional hadronic jets. The tt(bar) system is reconstructed using techniques optimized for either resolved or boosted event topologies. The results of the analysis are used to set upper limits on the production cross-section times branching ratio for heavy resonances decaying to tt(bar). These limits are interpreted in the context of several benchmark models including the leptophobic topcolor Z', the Randall-Sundrum Kaluza-Klein gluon (gKK), the Randall-Sundrum Kaluza-Klein graviton (GKK) and a spin-0 scalar particle. resonances ttbar Physics ATLAS
2	Probing top quark and Higgs boson production in multijet events at the LHC with the ATLAS detector / Sonder la production du quark top et du boson de Higgs dans les évènements multi-jet avec expérience Atlas auprès du LHC Bertella, Claudia 30 September 2013 (has links) Sonder la production du quark top et du boson de Higgs dans les évènements multi-jet avec expérience Atlas auprès du LHC.Le détecteur Atlas est une expérience généraliste placé auprès du collisionneur proton-proton circulaire de 27 km de circonférence, LHC. Le LHC est conçu pour produire des collisions avec une énergie nominale au centre de masse de l'ordre de racine carré8 = 14 Tev et une luminosité instantané de 10-34cm-2s-1. / Probing top quark and Higgs boson production in multi-jet avents at the LHC with the Atlas detector.The Atlas detector is a general purpose detector located at the Large Hadron Collider (LHC). It aims at the discovery af new physics phenomena and improving our knowledge of the standart Model (SM). Ttbar Cross section Higgs ATLAS Ttbar Section efficace Boson de Higgs ATLAS 539
3	Calorimétrie à argon liquide et recherche de nouvelle physique via l'étude de paires de quarks top boostés dans l'expérience ATLAS au LHC / Liquid argon calorimetry and search for new physics using boosted top quarks with the ATLAS experiment at the LHC Camincher, Clément 06 October 2017 (has links) Le modèle standard de la physique des particules, bien qu'étant une réussite incontestable n'explique toujours pas certaines observations, ce qui pourrais indiquer la présence d'une nouvelle physique. L'expérience ATLAS cherche à mettre en évidence ces nouveaux phénomènes en analysant les collisions de protons du LHC.Le prérequis pour toute analyse est d'avoir des données de bonne qualité. La première partie de cette thèse présente donc une étude sur les bouffées de bruit cohérent présentes dans les calorimètres à argon liquide d'ATLAS. Ce bruit a été traité pour garder un haut niveau de qualité des données.La deuxième partie de cette thèse se place dans le cadre de la recherche de nouvelle physique. Une résonance est cherchée dans le spectre en masse invariante des paires de quarks top. L'étude se concentre sur le cas des quarks top boostés se désintégrant de manière électronique. Cette topologie n'ayant jusqu'à présent pas été optimisée par la collaboration ATLAS, le travail de cette thèse a consisté à définir et développer une nouvelle méthode appelée "electron-in-jet removal" permettant d'améliorer la reconstruction des quarks top dans un tel régime.Cette méthode donne accès à des électrons qui auparavant étaient rejetés. Il faut donc mesurer les facteurs correctifs à appliquer pour corriger les imperfections de la simulation de ces électrons. Des mesures préliminaires de facteurs d'échelle d'identification sur les électrons se trouvant dans un jets ont ainsi été menées. Deux méthodes sont présentées ainsi qu'une réflexion sur les perspectives à apporter à ces mesures. / The standard model of particle physics is a very predictive theory, but it still fails to explain some observations and so leads to the idea of the existence of new physics. To discover it experimentally, the ATLAS collaboration analyses the proton-proton collisions provided by the LHC.Analyses need data of good quality. Hence, the first part of this document describes a work to characterize the coherent noise bursts observed in the liquid argon calorimeters of the ATLAS experiment. Such noise has been studied and cured to ensure a high level of data quality.The second part of this thesis takes place in the context of a new physics search using top quark pairs. This study is focused on the case where boosted top quarks decay electronically. The reconstruction of top quarks in such cases was never optimized by the ATLAS collaboration. Therefore this study has lead to the definition and implementation of a new method called "electron-in-jet removal" improving significantly the top quark reconstruction in such topologies.This new method gives access to electrons that were previously removed. The correction factor applied to correct the imperfections of the simulation should then be computed for those electrons. Some preliminary measurements have been performed for the cases where the electron is within a jet. Two methods are presented as well as thoughts about future implementations. Physique des particules ATLAS Quark top boosté Au delà du modèle standard Résonance ttbar LHC Particle physics ATLAS Boosted top quark Beyond standard model Ttbar resonance LHC 530
4	Cross-section measurement of top quark pair production with additional b-jets in the eμ channel at √ s = 13 TeV with the ATLAS detector Vishwakarma, Akanksha 27 November 2019 (has links) Diese Doktorarbeit behandelt die Messung des Wirkungsquerschnittes der Paarbildung von Top-Quarks mit zusätzlichen B-Jets (Teilchenschauer aus der Fragmentierung von B-Quarks) in Proton-Proton-Kollisionen bei einer Schwerpunktsenergie von √s =13 TeV am Large Hadron Collider. Der Datensatz wurde 2015/16 mit dem ATLAS-Detektor aufgezeichnet und entspricht einer integrierten Luminosität von 36,1/fb. Die Wirkungsquerschnitte werden auf Teilchenebene in einem fiduziellen Phasenraum gemessen, der dicht an der Detektorakzeptanz gewählt wurde. Die fiduziellen inklusiven Wirkungsquerschnitte für tt-Endzustände mit mindestens einem oder mindestens zwei zusätzlichen B-Jet(s) nach Abzug der Beiträge von ttH(bb) und ttZ(bb) werden als 177 ± 5(stat) ± 24(syst) fb bzw. 25 ± 3(stat) ± 7(syst) fb bestimmt. Die Messungen werden mit dem neusten Stand von unterschiedlichen theoretischen Vorhersagen verglichen. Im Allgemeinen sind die gemessenen inklusiven, fiduziellen Wirkungsquerschnitte größer als die ttbb-Vorhersagen von verschiedenen NLO-Berechnungen des mit Partonschauern abgeglichenen tt-Matrixelements, bleiben aber im Rahmen der Messunsicherheit. Die Unsicherheiten der experimentellen Messung sind kleiner als die Unsicherheiten der Vorhersagen. Die differenzielle Messung von tt+B-Jets wird mit dieser Analyse zum ersten Mal innerhalb der ATLAS-Kollaboration durchgeführt. Die normalisierten differenziellen Wirkungsquerschnitte werden als Funktion der Multiplizität der B-Jets, kinematischen Ereignisobservablen und Observablen der Objekte in den Endzuständen dargestellt. Die beobachteten differenziellen Verteilungen werden mit einer Vielzahl an theoretischen Vorhersagen verglichen und eine gute Übereinstimmung mit den Daten für die meisten festgestellt. / This thesis presents the cross-section measurement of top quark pair (tt) production in association with additional b-jets (tt+b-jets) in proton-proton collisions at a centre-of-mass energy, √s = 13 TeV at the Large Hadron Collider. The analysis is performed in the emu decay channel of tt using a dataset comprising an integrated luminosity of 36.1/fb collected by the ATLAS detector in the years 2015 and 2016. The cross-sections are measured at particle level in a fiducial phase space which is chosen close to the detector acceptance. The fiducial inclusive cross-section for tt final states with at least one and at least two additional b-jet(s) is measured to be 177 ± 5(stat) ± 24(syst) fb and 25 ± 3(stat) ± 7(syst) fb, respectively, after subtracting the contributions from ttH(bb) and ttZ(bb). Comparison of the measured cross-section to various state-of-the-art theoretical QCD predictions are made. The measured inclusive fiducial cross-sections generally exceed the ttbb predictions from various NLO matrix element calculations matched to a parton shower but are compatible within the uncertainties. The experimental uncertainties in the measurement are smaller than the uncertainties in the predictions. The differential measurement of tt+b-jets is carried out for the first time by the ATLAS collaboration in this analysis. The normalised differential cross-sections as a function of b-jet multiplicity, kinematic observables of the events and properties of b-jet pairs are shown. The observed differential distributions are compared with multitude of theoretical predictions and a good agreement with data is found for most of them. ATLAS Top quark LHC ttbar zusätzlichen B-Jets ATLAS Top quark LHC ttbar additional b-jets 530 Physik UN 7200 UO 5710 ddc:530
5	Search for tt̄H production and measurement of the tt̄ cross-section with the ATLAS detector Qin, Yang January 2017 (has links) The Higgs boson and the top quark have been a focus in modern elementary particle physics research because of their special roles in the Standard Model (SM) of particle physics. The studies of both particles are crucial for revealing the unsolved puzzles of modern particle physics. The coupling between the Higgs boson and the top quark, the top-Yukawa coupling, is one of the fundamental parameters in the SM that can potentially direct the future development of the theory of elementary particle physics. This thesis presents two analyses on the Higgs boson and the top quark, using proton-proton (pp) collision data collected by the ATLAS detector during 2012 and 2015. A search for the SM Higgs boson produced in association with a top quark pair (tt̄H) was performed using 20.3 fb⁻¹ of pp collision data at a centre-of-mass energy of √s = 8 TeV. The search is designed to be primarily sensitive to the H → bb decay mode. Events with one of two electrons or muons are used in the search. No significant excess of events is observed above the background predicted by the SM. An observed (expected) upper limit on the signal strength of 3.4 (2.2) times the SM prediction is obtained at 95% confidence level. The tt̄H signal strength, represented by the ratio of the measured tt̄H cross-section to the SM prediction, is found to be μ = 1.5 ± 1.1 for a Higgs boson mass of m_H = 125 GeV. A measurement of the top quark pair (tt̄) production cross-section was performed using 3.2 fb⁻¹ of pp collision data at √s = 13 TeV. The measurement uses events with an opposite-charge-sign electron-muon pair and exactly one and two jets originating from b quarks. The inclusive tt̄ production cross-section is measured to be σ_tt̄ = 818 ± 8(stat) ± 27(syst) ± 19(lumi) ± 12(beam) pb, where the uncertainties arise from data statistics, analysis systematic effects, the integrated luminosity and the LHC beam energy. The total relative uncertainty is 4.4%. The result is consistent with the theoretical prediction at the next-to-next-to-leading order accuracy in the strong coupling constant αs of QCD, with the resummation of next-to-next-to-leading logarithmic (NNLL) soft gluon terms. A fiducial cross-section corresponding to the experimental acceptance of leptons is also measured. 500
6	Charged Higgs Boson Studies in ttbar -Dilepton Events at the LHC Zimmer, Stephan January 2009 (has links) <p>A generator-level study of dilepton ttbar events to search for light charged Higgs bosons at the LHC is presented with the aim of finding a new variable to discriminate between charged Higgs signals and Standard Model signatures. The spin effects in leptonic decays of H<sup>±</sup> and W bosons are studied and a new angular distribution is identified as a discriminating variable. Studies are performed for different charged Higgs masses at two different center ofmass energies. Monte Carlo samples of Z+jets production are also used to test the analysis.</p> Charged Higgs Supersymmetry ttbar Dilepton Spin Distribution Elementary particle physics Elementarpartikelfysik
7	Charged Higgs Boson Studies in ttbar -Dilepton Events at the LHC Zimmer, Stephan January 2009 (has links) A generator-level study of dilepton ttbar events to search for light charged Higgs bosons at the LHC is presented with the aim of finding a new variable to discriminate between charged Higgs signals and Standard Model signatures. The spin effects in leptonic decays of H± and W bosons are studied and a new angular distribution is identified as a discriminating variable. Studies are performed for different charged Higgs masses at two different center ofmass energies. Monte Carlo samples of Z+jets production are also used to test the analysis. Charged Higgs Supersymmetry ttbar Dilepton Spin Distribution Elementary particle physics Elementarpartikelfysik
8	Search for the Standard Model Higgs boson produced in association with tt and decaying into bb at 8 TeV with the ATLAS detector using the Matrix Element Method Nackenhorst, Olaf 08 June 2015 (has links) No description available. 530 Physik (PPN621336750) higgs matrix element method ttH Higgs boson ttbar higgs higgs to bb
9	Searches for top-antitop resonances in proton-proton collisions at a center of mass energy of 7 TeV with the ATLAS detector Lessard, Jean-Raphael 15 March 2012 (has links) The LHC and the ATLAS detector offer an unprecedented opportunity to test theories beyond the Standard Model of particle physics. Some of these theories predict heavy particles that would decay predominantly into a top and an antitop quark. This thesis presents a technique to experimentally measure the invariant mass (Mtt) of top-antitop pairs, event-by-event, allowing for a complete reconstruction of the Mtt spectrum. Two different models of heavy narrow resonances were considered: a particle X with a negligible mass width, and a Z' particle. Under these models, no resonances in the Mtt spectrum were found in 35.3 pb-1 of 7 TeV centre of mass proton-proton collision data. An upper limit on the production cross section times the branching ratio of the heavy particle decaying into a top-antitop (Sup) as a function of its mass (Mx or Mz) was established at a 95% confidence level. Including systematic errors, the observed (expected) Sup at 95% varies from 3.2 pb (27.9 +11.3 -19.9 pb) to 77.7 pb (9.8 +10.7 -5.6 pb) for Mx ranging from 760 GeV to 1000 GeV, and from 2.9 pb (55.9 +56.9 -47.0 pb) to 43.4 pb (7.8 +8.9 -4.7 pb) for Mz ranging from 700 GeV to 1000 GeV. / Graduate Particle Physics High Energy Physics LHC ATLAS top quark resonances ttbar
10	Searches for top-antitop resonances in proton-proton collisions at a center of mass energy of 7 TeV with the ATLAS detector Lessard, Jean-Raphael 15 March 2012 (has links) The LHC and the ATLAS detector offer an unprecedented opportunity to test theories beyond the Standard Model of particle physics. Some of these theories predict heavy particles that would decay predominantly into a top and an antitop quark. This thesis presents a technique to experimentally measure the invariant mass (Mtt) of top-antitop pairs, event-by-event, allowing for a complete reconstruction of the Mtt spectrum. Two different models of heavy narrow resonances were considered: a particle X with a negligible mass width, and a Z' particle. Under these models, no resonances in the Mtt spectrum were found in 35.3 pb-1 of 7 TeV centre of mass proton-proton collision data. An upper limit on the production cross section times the branching ratio of the heavy particle decaying into a top-antitop (Sup) as a function of its mass (Mx or Mz) was established at a 95% confidence level. Including systematic errors, the observed (expected) Sup at 95% varies from 3.2 pb (27.9 +11.3 -19.9 pb) to 77.7 pb (9.8 +10.7 -5.6 pb) for Mx ranging from 760 GeV to 1000 GeV, and from 2.9 pb (55.9 +56.9 -47.0 pb) to 43.4 pb (7.8 +8.9 -4.7 pb) for Mz ranging from 700 GeV to 1000 GeV. / Graduate Particle Physics High Energy Physics LHC ATLAS top quark resonances ttbar

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