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Recherche indirecte de matière noire avec l'expérience H.E.S.S. / Indirect search for dark matter with the H.E.S.S. experimentKieffer, Matthieu 28 September 2015 (has links)
L’Univers est dominé par une composante invisible appelée Matière Noire (MN), de nature inconnue mais dont les effets gravitationnels sur la matière visible sont clairement observés. Il a été proposé que la MN soit constituée de particules massives et interagissant faiblement avec la matière, permettant ainsi de concilier théorie, observations et simulations. L’annihilation de ces particules dans les régions où la MN est fortement concentrée pourrait produire des rayons γ de très haute énergie dont les signatures spectrales peuvent être détectées par le réseau de télescopes H.E.S.S. Un excès à ~3σ est observé dans la direction de la Galaxie Naine du Sagittaire, avec la méthode standard d’analyse ON-OFF. Plus de données sont nécessaires pour conclure quant à son origine. La seconde partie du travail concerne la recherche de raies spectrales en γ dans la région du Centre Galactique. Une méthode de Maximum de Vraisemblance Complète a été développée, étalonnée et appliquée à une fraction d’un ensemble de 20h de données prises en 2014. Aucun excès de γ n’étant observé, des limites sur la section efficace d’annihilation de la MN sont produites pour des masses de 100 GeV à 2 TeV, la sensibilité de H.E.S.S. à basse énergie étant obtenue par l’ajout d’un 5ème télescope depuis 2012. Ces limites complètent efficacement les précédents résultats de Fermi-LAT et H.E.S.S. D’autre part l’analyse finale devrait permettre d’exclure un potentiel signal à 130 GeV observé dans les données de Fermi-LAT en 2012 et ce avec plus de 95% CL, et de proposer les limites les plus solides à ce jour sur les modèles d’émission de raies spectrales en γ dans le domaine d’énergie couvert par H.E.S.S. / The Universe is full of gravitational evidence of a dominant invisible Dark Matter (DM) component at the Galactic and cosmological scales. Although its nature is still one of the major puzzles of the 21st Century, Weakly Interacting Massive Particles (WIMPs) are an excellent scenario for matching theoretical predictions with observations and simulations. In particular, their self-annihilations would give rise to characteristic spectral signatures in γ-rays, detectable at Very High Energies (VHE) with the H.E.S.S. telescope array in regions such as the Galactic Centre (GC) and Dwarf Spheroidal Galaxies (dSphs). The standard ON-OFF analysis method is applied in the observation of the Sagittarius dSph where a ~3σ hotspot is observed above 300 GeV, although more statistics is required to conclude on its potential DM origin. The second part of the work is focused on the search for monochromatic γ-ray line signatures in the GC region. A Full Likelihood method has been developed, calibrated with Monte-Carlo simulations and applied to a sub-sample of a 20h dataset acquired in 2014. No excess signal is found, thus leading to limits on the DM annihilation cross-section down to a 100 GeV mass range, the sensitivity at the lowest energies being achieved by the 5th H.E.S.S. telescope added in 2012. These limits efficiently fill the gap in mass between results from Fermi-LAT and the first phase of H.E.S.S. On the other side the analysis of the complete dataset is expected to exclude the 130 GeV line-like feature recently reported in the Fermi-LAT data, with more than 95% CL, and to provide the most constraining DM limits so far on γ-ray line emission in the VHE range.
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The power spectrum and bispectrum of inflation and cosmic defectsLazanu, Andrei January 2016 (has links)
Much of the recent progress in cosmology has come from studying the power spectrum of the cosmic microwave background (CMB). The latest results from the Planck satellite confirmed that the inflationary paradigm with the $\Lambda$CDM six-parameter model provides a very good description of the observed structures in the Universe. Even so, additional parameters, such as cosmic defects, are still allowed by current observational data. Additionally, many of the inflationary models predict a significant departure from Gaussianity in the distribution of primordial perturbations. Higher order statistics, such as the bispectrum, are required to test and constrain such models. The late-time distribution of matter in the Universe - large-scale structure (LSS) - contains much more information than the CMB that has not yet been used. In this thesis, we look at both problems: the effects of cosmic defects, in particular cosmic strings and domain walls on the CMB power spectrum through numerical simulations, and the dark matter bispectrum of large-scale structure. Topological defects are predicted by most inflationary theories involving symmetry breaking in the early Universe. In this thesis we study the effects of cosmic strings and domain walls on the CMB by determining their power spectrum. We use Nambu-Goto and field theory simulations for cosmic strings and domain walls respectively, and we determine the power spectra they produce with a modified Einstein-Boltzmann solver sourced by unequal time correlators from components of the energy-momentum tensor of the defects. We use these spectra together with CMB likelihoods to obtain constraints on the energy scales of formation of the cosmic defects, finding $G\mu/c^{2} < 1.29 \times 10^{−7}$ and $\eta < 0.93$ MeV (at 95% confidence level) for cosmic strings and domain walls respectively, when using the Planck satellite likelihoods. For the matter bispectrum of LSS, we compare different perturbative and phenomenological models with measurements from $N$-body simulations by using shape and amplitude correlators and we determine on which scales and for which redshifts they are accurate. We propose a phenomenological ‘three-shape’ model, based on the fundamental shapes we have observed by studying the halo model that are also present in the simulations. When calibrated on the simulations, this model accurately describes the bispectrum on all scales and redshifts considered, providing a prototype bispectrum HALOFIT-like methodology that could be used to describe and test parameter dependencies.
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Warped Galaxies : Recovery Of Pattern Speed, Velocity Field And The Warp EquationMaji, Moupiya 05 1900 (has links) (PDF)
Pattern speed is an important parameter of the density wave theory for spiral galaxies. In this thesis we have determined the pattern speed for warped galaxies (flat galaxies being a special case of this generalization) using the observable data of the surface brightness and line-of-sight velocity distribution of the galaxy. We have also extracted the transverse velocity field for the warped galaxy using the same data. Here we have simulated the data and applied our method to it and we found that our method works well in warped galaxy. We assume a parameterized model of the warp and by the method of minimizing χ2 error we can determine the parameters of the model also and thus we can construct the warp equation. We have also discussed the implications and the limitations of this method.
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Test et calibrations technologiques avec PICO-0.1 pour les futurs détecteurs de chambre à bulle de matière sombre de PICOChen, Simon 08 1900 (has links)
Parmi les douzaines d’expériences qui visent à découvrir la matière sombre, l’expérience de détection directe PICO utilise des détecteurs à liquide surchauffé comme moyen pour s’y prendre. La chambre à bulle PICO-40L remplie de C3F8, présentement située dans le laboratoire sous-terrain SNOLAB, est en cours de test en vue d’une recherche aveugle de WIMP (Weakly Interacting Massive Particle) d’une durée de 1 an. Pour assurer la stabilité du détecteur pendant les périodes de préparation et pendant l’acquisition de données, un logiciel de surveillance a été écrit. Un moyen fiable de surveiller les paramètres importants du détecteur et d’envoyer des alarmes en cas d’urgence joue un rôle important à non seulement au succès de PICO-40L, mais aussi au développement du futur détecteur PICO-500.
Située à l’Université de Montréal, la chambre à bulle PICO-0.1 a été conçue afin de calibrer les nombreux événements de fond qui se présentent dans ce type de détecteur. De plus, cette chambre à bulle a été utilisée comme première tentative au monde de mesurer la diffusion Thomson sur un noyau d’atome en exposant le détecteur rempli de C3F8 à une source de gamma produite par la réaction 19F proton à alpha et gamma 16O à l’aide d’un faisceau de protons crée par l’accélérateur de particules de l’Université de Montréal. Ce type d’interaction s’avérera à un événement de fond important pour les expériences de détection directe de matière sombre à bas seuil. / Amongst the dozens of experiments aiming to be the first to claim a dark matter signal, PICO is a direct dark matter detection experiment that utilizes superheated liquid detectors as a means of doing so. The latest C3F8 filled PICO-40L bubble chamber currently located in the SNOLAB underground laboratory is under testing to prepare for a 1 live-year blinded WIMP (Weakly Interacting Massive Particle) search. To ensure the stability of the detector during both the testing and the data acquisition phases, a monitoring software was coded. A reliable way to monitor all the parameters and to send alerts accordingly plays an important role in not only the success of PICO-40L, but also the development of the future larger-scale PICO-500 detector.
PICO-0.1 is a test bubble chamber located at the University of Montreal that was built to calibrate for the numerous background events that can occur in this kind of technology. This test chamber was also used as a world’s first attempt to measure the coherent (Thomson) photon scattering onto a nucleus by exposing the C3F8 filled detector to a gamma
source produced by the 19F proton to alpha and gamma 16O reaction using a proton beam created by the University of Montreal particle accelerator. This kind of interaction will prove to be a significant background for future sub-keV direct dark matter detection experiments.
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Mesure de l'échelle des oscillations acoustiques de baryons dans la fonction de corrélation des forêts Lyman-α avec la distribution des quasars observés dans le relevé SDSS / Mesure of the scale of bayonic acoustic oscillations in the correlation function of Lyman-α forest with the quasar distribution observed in the SDSS surveyDu Mas des Bourboux, Hélion 08 September 2017 (has links)
La propagation des ondes acoustiques dans le plasma primordial a laissé son empreinte sous la forme d'un pic dans la fonction de corrélation à deux points de la densité de matière. Ce pic d'oscillations acoustiques de baryons (BAO) constitue une échelle standard permettant de déterminer certains paramètres des différents modèles cosmologiques.Dans ce manuscrit de thèse, nous présentons une mise à jour de la mesure de BAO à un redshift z=2.40, à l'aide de la fonction de corrélation croisée entre deux traceurs des fluctuations primordiales de densité de matière: les quasars de SDSS-III (BOSS) et leurs fluctuations d'absorption du flux des forêts Lyman-α. Ces fluctuations tracent la distribution d'hydrogène neutre dans le milieu intergalactique (IGM).Cette étude constitue le premier développement d'un ajustement entièrement physique de la fonction de corrélation croisée; il prend notamment en compte la physique des quasars et la présence d'éléments plus lourds que l'hydrogène dans l'IGM. Nous y présentons également les premières simulations de notre analyse. Celles-ci nous permettent de valider l'ensemble de la procédure de mesure de l'échelle BAO.Cette étude mesure la distance de Hubble et la distance de diamètre angulaire avec respectivement une précision de 2% et 3% (intervalle à 1 σ). Nous combinons nos résultats avec d'autres mesures de BAO à des redshifts plus faibles et trouvons la densité de matière noire et d'énergie noire dans le cadre de deux différents modèles cosmologiques: ΛCDM et oΛCDM. / The acoustic wave propagation in the primordial plasma left its imprint in the two-point correlation function of the matter density field. This baryonic acoustic oscillation (BAO) peak builds up a standard ladder allowing us to infer some parameters of the different cosmological models.In this thesis manuscript we present an update of the BAO measurement at a redshift z=2.40, from the cross-correlation function between two tracers of the primordial matter density fluctuations: quasars of SDSS-III (BOSS) and their Lyman-α-forest absorption fluctuations. These fluctuations trace the neutral hydrogen distribution in the intergalactic medium (IGM).This study gives the first developpment of the full physical fit of the cross-correlation. Among other effects, it takes into account quasar physics and the distribution of IGM elements heavier than hydrogen. We also present the first simulations of our analysis. They allow us to validate the overall data analysis leading to the BAO measurement.This study measures the Hubble distance and the angular diameter distance at the 2%$ and 3%$ precision level respectivelly (1 σ interval). We combine our results with other BAO measurements at lower redshifts and find the dark matter density and dark energy density in the framework of two different cosmological models: ΛCDM et oΛCDM.
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Searching for dark matter with superheated liquid detectorsPlante, Arthur 09 1900 (has links)
No description available.
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Matéria escura como campo escalar : aspectos teóricos e observacionais /Escobal, Anderson Almeida January 2020 (has links)
Orientador: José Fernando de Jesus / Resumo: Estudamos o campo escalar real como um possível candidato para explicar a matéria escura no universo. No contexto de um campo escalar livre com potencial quadrático, após encontrar as equações dinâmicas do modelo usamos os dados observacionais para limitar os parâmetros livres e assim encontrar um limite inferior para o valor da massa que foi da ordem de $10^{-34}$eV, esse valor está próximo ao encontrado por alguns autores. Não foi possível encontrar um limite superior para a massa da matéria escura do campo escalar combinando os dados de $H(z)$, SN Ia. Como verificado neste trabalho e observado em outros estudos, a matéria escura pode ser descrita por um campo escalar real. Em outra linha de pesquisa, usando um método estatístico não-paramétrico envolvendo os chamados Processos Gaussianos, obtivemos um valor do redshift de transição, $z_t$, de $z_t = 0.59^{+0.12}_{-0.11}$ para dados de $H(z)$ e $z_t= 0.683^{+0.11}_{-0.082}$ para dados de SNs Ia. / Abstract: We studied the real scalar field as a possible candidate to explain the dark matter in the universe. In the context of a free scalar field with quadratic potential, after finding the dynamic equations of the model we used the observational data to limit the free parameters and thus find a lower limit for the mass value that was in the order of 10−34 eV , this value is close to that found by some authors. It was not possible to find an upper limit for the mass of dark matter in the scalar field by combining the H(z) + SNe Ia data. As verified in this work and observed in other studies, dark matter can be described by a real scalar field. In another line of research, using a non-parametric statistical method involving the so-called Gaussian Processes, we obtained a value of the transition redshift, zt , of zt = 0.59+0.12 −0.11 for H(z) data and zt = 0.683+0.11 −0.082 for SNs Ia data. / Mestre
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Subgrupos do grupo de Lorentz e simetria de matéria escura /Silva, Marcos Vinícius Ferreira da. January 2020 (has links)
Orientador: Julio Marny Hoff da Silva / Resumo: Teorias que violam as simetrias de Lorentz são de certa forma comumente encontradas na literatura. Com o estudo dos subgrupos do grupo de Lorentz, uma pergunta fica no ar. Será preciso todo o grupo de Lorentz para descrever as simetrias do espaço-tempo ou apenas um subgrupo já seria suficiente? Se isso for possível teríamos um teoria que violaria as simetrias de Lorentz e consequentemente outras peguntas surgem. Essa teoria serve para descrever a matéria bariônica ou outro tipo de matéria? Neste trabalho usaremos os grupos da very special relativity (VSR) que são subgrupos do grupo de Lorentz e tentaremos responder essas perguntas com base em cálculos e em experimentos largamente difundidos na literatura: o experimento de Michelson-Morley e o fenômeno da precessão de Thomas. Também discutiremos algumas consequências advindas de uma teoria quântica de campos que viola as simetrias de Lorentz. / Mestre
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Função de partição para um campo fermiônico de dimensão de massa um e o halo de matéria escura das galáxias /Costa, Richard Silva January 2020 (has links)
Orientador: Saulo Henrique Pereira / Resumo: Efeitos térmicos em teoria de campos são estudados pela chamada Teoria de Campos a Temperatura Finita. Nessa dissertação estudamos os efeitos de temperatura de um campo fermiônico de dimensão de massa um (MDO), que obedece à equação Klein-Gordon em vez da de Dirac. A função de partição foi obtida por meio do formalismo de tempo imaginário e o resultado foi o mesmo que o obtido para campos fermiônicos padrões de Dirac. Obtemos os limites de alta e baixa temperatura, sendo que o limite de baixas temperaturas é proposto como sendo o responsável por manter os halos de matéria escura da galáxia numa região da mesma ordem ou maior que o raio galáctico. Para uma partícula leve com massa de 1eV e densidade de 0.1 partículas por cm³, o valor da massa total da matéria escura devido a partículas MDO é da mesma ordem da massa de uma galáxia típica. Tal resultado pode explicar a matéria escura como sendo formada por partículas fermiônicas de dimensão de massa um. Por fim, comparamos as estimativas de densidade dessas partículas com densidades obtidas através de dados de simulações numéricas e concluímos que para valores de massa entre 0.1eV a 1eV, as partículas MDO produzem uma massa típica de galáxias desde que a densidade delas esteja no intervalo de 10^(-2) cm^(-3) a 10^(5)cm^(-3). / Abstract: Thermal effects in feld theory are studied by the so called Finite Temperature Field Theory. In this dissertation we study the effects of temperature of a mass dimension one (MDO) fermionic field, which obeys the Klein-Gordon equation rather than the Dirac equation. The partition function was obtained via the imaginary time formalism and the result was the same as for the a Dirac fermionic field. We obtained the high and low temperature limits, and the latter is proposed as being responsable for keeping the dark matter halos of galaxies in a region greater than or of the same order as a typical galaxy radius. For a light particle of about 1eV and density of 0.1 particles per cm3 , the value of the total dark mass due to MDO particles is of the same order of a typical galaxy. Such result can explain dark matter as being formed by fermionic particles. Lastly, we compared those particles densities estimates with the ones obtained numeric simulation data and conclude that for mass values between 0.1eV and 1eV, the MDO particles yield a typical galaxy mass as long as their density is in the 10−2 cm−3 to 105 cm−3 interval / Mestre
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Search for dark matter produced in association with a Z boson in the ATLAS detector at the Large Hadron ColliderMcLean, Kayla Dawn 01 March 2021 (has links)
This dissertation presents a search for dark matter particles produced in association with a Z boson in proton-proton collisions. The dataset consists of 139 fb^{-1} of collision events with centre-of-mass energy of 13 TeV, and was collected by the ATLAS detector from 2015-2018 at the Large Hadron Collider. Signal region events are required to contain a Z boson that decays leptonically to either e^+e^- or μ^+μ^-, and a significant amount of missing transverse momentum, which indicates the presence of undetected particles. Two types of dark matter models are studied: (1) simplified models with an s-channel axial-vector or vector mediator that couples to dark matter Dirac fermions, and (2) two-Higgs-doublet models with an additional pseudo-scalar that couples to dark matter Dirac fermions. The main Standard Model background sources are ZZ, WZ, non-resonant l^+l^-, and Z+jets processes, which are estimated using a combination of data and/or simulation. A new reweighting technique is developed for estimating the Z+jets background using γ+jets events in data; the resulting estimate significantly improves on the statistical and systematic errors compared to the estimate obtained from simulation. The observed data in the signal region are compared to Standard Model prediction using a transverse mass discriminant distribution. No significant excess in data is observed for the simplified models and two-Higgs-doublet models studied. A statistical analysis is performed and several exclusion limits are set on the parameters of the dark matter models. Results are compared to direct detection experiments, the CMS experiment, and other ATLAS searches. Prospects and improvements for future iterations of the search are also presented. / Graduate
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