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The Global ETD Search service is a free service for researchers
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Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 131 to 140 of 146 (0.038 seconds)| 131 |
Searches for Particle Dark Matter : Dark stars, dark galaxies, dark halos and global supersymmetric fitsScott, Pat January 2010 (has links)
The identity of dark matter is one of the key outstanding problems in both particle and astrophysics. In this thesis, I describe a number of complementary searches for particle dark matter. I discuss how the impact of dark matter on stars can constrain its interaction with nuclei, focussing on main sequence stars close to the Galactic Centre, and on the first stars as seen through the upcoming James Webb Space Telescope. The mass and annihilation cross-section of dark matter particles can be probed with searches for gamma rays produced in astronomical targets. Dwarf galaxies and ultracompact, primordially-produced dark matter minihalos turn out to be especially promising in this respect. I illustrate how the results of these searches can be combined with constraints from accelerators and cosmology to produce a single global fit to all available data. Global fits in supersymmetry turn out to be quite technically demanding, even with the simplest predictive models and the addition of complementary data from a bevy of astronomical and terrestrial experiments; I show how genetic algorithms can help in overcoming these challenges. / At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 5: Accepted. Paper 6: Submitted.
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Θεωρίες για την σκοτεινή ύλη και σχετικές εναλλακτικές θεωρίεςΚατσιάνης, Αντώνης 21 March 2011 (has links)
Ένα από τα μεγαλύτερα θεωρητικά κατασκευάσματα της φυσικής είναι αυτό της σκοτεινής ύλης. Στην παρούσα μεταπτυχιακή διπλωματική εργασία αναλύονται οι λόγοι για τους οποίους πιστεύουμε στην ύπαρξη της σκοτεινής ύλης, τα σωματίδια και γενικά τα αντικείμενα που μπορεί να την απαρτίζουν, η σκοτεινή ενέργεια και οι μορφές της και τέλος εναλλακτικές προτάσεις. / One of the most important theoretical creations of physics is dark matter. In this master thesis we describe the reasons we believe in the existence of dark matter, the particles and the objects that consists dark matter, dark energy and finally alternative theories.
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Cerâmica em rede: caminhos, saberes e transformações dos Andes à Amazônia Shipibo-Conibo / Cerámica en red: caminos, saberes y transformaciones de los Andes a la Amazonia Shipibo-Conibo / Ceramic in network: pathways, knowledges and transformations from the Andes to the Shipibo-Conibo AmazonPaiva, Priscilla Araujo Rodrigues [UNESP] 28 June 2018 (has links)
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Previous issue date: 2018-06-28 / Percebendo uma dinâmica na cerâmica indígena que é fruto de agências e seus efeitos de captura sobre os receptores desta arte, a pesquisa faz uma aproximação às relações socioambientais e cosmologias, andina e amazônica, para compreender as ontologias indígenas e as relações de alteridade com seres míticos como a serpente, que desencadeiam transformações sociais nas aldeias. A atuação do xamanismo na produção de conceitos e de pessoa está inscrita nas produções cerâmicas através de referências à serpente como nos kene Shipibo-Conibo e na iconografia cerâmica andina pré-colombiana, indicando que os saberes cerâmicos indígenas funcionam em rede cosmológica na América do Sul. / Noticing a dynamic in the indigenous ceramics that is the result of agencies and their capture effects on the receptors of this art, the research makes an approximation to the socio-environmental relations and cosmologies, Andean and Amazonian, to understand the indigenous ontologies and the relations of alterity with mythical beings like the serpent that trigger social transformations in the communities. The agency of the xamanism in the production of concepts and of person is inscribed in the ceramic productions through references to the serpent as the kene, drawings Shipibo-Conibo, and prehispanic Andean ceramic iconography, indicating that indigenous ceramic knowledge functions in a cosmological network in South America. / Percibiendo una dinámica en la cerámica indígena que es fruto de agencias y sus efectos de captura sobre los receptores de esta arte, la investigación hace una aproximación a las relaciones socioambientales y cosmologías, andina y amazónica, para comprender las ontologías indígenas y las relaciones de alteridad con seres míticos como la serpiente, que desencadenan transformaciones sociales en las aldeas. La atuación del xamanismo en la producción de conceptos y de persona está inscrita en las producciones cerámicas a través de referencias a la serpiente, como los kene, el dibujo Shipibo-Conibo, y en la iconografía cerámica andina precolombina, indicando que los saberes cerámicos indígenas funcionan en red cosmológica en América del Sur.
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Cura Encantada: Medicina Tradicional e Biomedicina entre os Pankararu do Real Parque em São Paulo / Enchanted Healing: Traditional Medicine and Biomedicine between Pankararu of Real Parque in São PauloLopes, Rafael da Cunha Cara [UNIFESP] 22 February 2011 (has links) (PDF)
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Previous issue date: 2011-02-22 / Esta dissertação busca se aproximar das concepções Pankararu de cura e suas relações com a biomedicina. Embora os Pankararu sejam originários da região do submédio São Francisco, no Estado de Pernambuco, depois de um intenso processo de migração, muitos deles passaram a residir na Favela do Real Parque, em São Paulo. Este estudo se concentra nos Pankararu do Real Parque. Este trabalho descreve partes da cosmologia Pankararu e suas formas tradicionais de cura, na busca de compreender a integração dessas práticas com o atendimento biomédico do Município de São Paulo. Descrevo então como ocorre essa integração, assinalando os conflitos e os processos de “tradução” e ressignificação de seus elementos rituais para o contexto urbano. O crescente número de etnias que vivem na metrópole suscita indagações quanto à transformação e readaptação de seus discursos. Esta etnografia pretende explicitar como é realizado esse movimento e as formas de afirmação identitária e de conquistas políticas, principalmente, no campo da saúde. / This essay seeks to approach the Pankararu concepts of healing and their relations with Biomedicine. Although Pankararu originate from the region of São Francisco submid, in the State of Pernambuco, after an intense process of migration, many ofthem took up residence in the shantytown of Real Parque, in São Paulo city. This study focuses on the Pankararu of Real Parque. This paper describes parts of the Pankararu cosmology and their traditional ways ofhealing, seeking to understand the integration of these practices with biomedical care in São Paulo city. I describe,then, how this integration occurs, pointing out the conflictsand the processes of "translation" and their redefinition of ritual elements to the urban context. The growing number of ethnic groups living in the metropolis raises questions aboutthe transformation and upgrading of their speech es. This ethnography aims to explainhow this movement takes place and the forms of identity affirmation and political achievements, especially in the health field. / TEDE / BV UNIFESP: Teses e dissertações
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Explorer la physique de l'accélération cosmique / Exploring the physics of cosmic accelerationSteigerwald, Heinrich Maria 02 March 2015 (has links)
L'expansion accélérée de l'univers est devenu un fait établi que personne ne pouvait prévoir il y a encore une vingtaine d'années. Pour expliquer l'accélération cosmique, l'univers doit être composé de $75%$ d'énergie noire, une matière hypothétique à pression négative. Une alternative aussi vertigineuse consiste à modifier la relativité générale d'Einstein à l'échelle cosmique.Mes travaux de thèse portent sur la contrainte des modèles d'énergie noire et de gravité modifiée avec les données observationnelles provenant de la croissance linéaire des structures cosmologiques. Une méthode basée sur une nouvelle paramétrisation de l'index de croissance des perturbations linéaires cosmologiques permet d'analyser un grand nombre de modèles "accélératoires" en même temps. Nous avons évalué et validé cette méthode par une analyse systématique de sa précision et de sa performance. Mes résultats montrent que le modèle standard de la cosmologie (le modèle $Lambda$CDM) reste en accord avec les données actuelles. Dans une étude approfondie, nous simulons les contraintes possibles avec les futures sondes cosmologiques de "précision" comme Euclid. Pour analyser encore plus de modèles en même temps, nous introduisons la théorie effective des champs de l'énergie noire (EFT) dans le formalisme développé auparavant. La EFT est un formalisme prometteur qui permet d'explorer d'une manière complète tous les modèles gravitationnels non-standards résultant de l'addition d'un degré de liberté supplémentaire dans l'équation d'Einstein. Nous proposons une paramétrisation de cette théorie que nous confrontons avec les données actuelles et futures. / The accelerated expansion of the universe has become an established fact that nobody could foresee until twenty years ago. To explain the cosmic acceleration, the universe must be composed by $75%$ of dark energy, a hypothetical form of matter with negative pressure. Alternatively, Einstein's field equation must be modified on cosmic scales. During my thesis I have worked on the constraint of dark energy and modified gravity models with data coming from the observed growth rate of cosmic structures. We have introduced a method based on a new parametrization of the growth index of linear cosmological perturbations. An advantage is the possibility of a concurrent analysis of multiple accelerating models. We have evaluated and validated the method in a systematic precision and performance check. My results show that the standard model of cosmology (the $Lambda$CDM model) remains consistent with current data. In an ongoing study, we have simulated future constraints for upcoming cosmological 'precision' probes like Euclid.In a second step, we introduce the effective field theory of dark energy (EFT) into our formalism. The EFT is a promising framework that allows to explore in a complete way all non-standard gravitational models that result from adding one degree of freedom in Einstein's field equation. Another advantage is its neat split of background and perturbation observables. We propose a parametrization of the EFT that we confront with current and simulated future constraints.
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Cosmology beyond ΛCDM model in the light of cluster abundance tension / La cosmologie au delà du modèle LCDM à la lumière de la tension dans l’abondance des amas de galaxiesSakr, Ziad 12 July 2018 (has links)
Le modèle ΛCDM permet de décrire avec une grande précision la plupart des présentes observations cosmologiques. Cependant, l'un de ses paramètres, σ 8, mesurant l'amplitude de fluctuations de la matière, présente une discordance entre sa valeur contrainte par le spectre de puissance angulaire du CMB de la mission Planck, les Cls, et celle déterminée à partir des amas SZ dans l'univers proche. Dans le présent travail on explore divers extensions du modèle ΛCDM comme origines possibles de cette anomalie. Pour tester les effets de ces extensions, nous avons effectué une analyse Monte Carlo on l'on compare les contraintes sur σ 8 à partir de ΛCDM avec celles résultantes de ces extensions, et ceci en utilisant principalement le spectre de puissance CMB seul ou combiné avec des comptages d'amas. Ces derniers sont basés sur différentes relations masse observables et couvrent différents redshift : des amas de rayons X dans l'univers local, des amas de la mission SZ Planck dans l'univers proche ou une estimation des amas détectés par leur richesse photométrique à partir du la future mission Euclid. Du fait qu'une mauvaise détermination de l'étalonnage de la masse des amas pourrait également être la raison de cette divergence, notre approche consistait, lorsqu'on combinait les deux sondes issues des amas et du CMB, à laisser le facteur d'étalonnage libre afin qu'il soit contraint comme les autres paramètres cosmologiques par les deux données. Dans le cas d'introduction de trois neutrinos massifs dégénérés, nous avons trouvé qu'ils n'ont aucun effet significatif sur la correction de l'écart entre les contraintes issues de comptage CMB et ceux issues des Xray ou SZ cluster. Nous avons ensuite permis à l'indice de croissance ƴ de varier. Nous trouvons une corrélation entre ƴ et le paramètre de calibration masse-observable des amas détectés par rayons X qui n'est pas affecté par la présence ou non des neutrinos massifs. [...] / The ΛCDM model has proved successful in describing to a high precision most of nowadays cosmological observations. However, one of its parameters, σ 8, measuring the present matter amplitude fluctuations, constrained from CMB angular power spectrum, the Cls, was found by the Planck mission, in significant tension with value constrained by SZ galaxy cluster counts in the near universe. In the present work we investigate extensions to ΛCDM model as possible origins behind this discrepancy. To test these extensions, we performed a Monte Carlo analysis to compare constraints on σ 8 in ΛCDM with constraints under these extensions, using mainly CMB Cls combined with cluster counts sample. The later were based on different mass observables relations and covered different redshift ranges: X-ray cluster in the local universe, SZ Planck mission clusters from the near universe or photometric richness estimated detected clusters from future high redshift upcoming Euclid alike mission. Because an improper determination of the calibration of cluster mass function could also be behind this discrepancy, our approach was, when combined with CMB, to leave the calibration factor free to vary and be constrained by data. Introducing three degenerate massive neutrinos, we found that they have no significant effect on fixing the discrepancy between CMB and Xray or SZ cluster counts. We then allowed the growth index ƴ to vary. We find a correlation in the confidence space between ƴ and the X-ray mass observable factor not affected by the presence of massive neutrinos, indicating that a modifying gravity is favored over massive neutrinos as a way to alleviate the tension. However, when a SZ cluster sample covering a larger redshift range was used, we found that the correlation between ƴ and the calibration factor, is constrained by the evolution of the growth through redshift and limited to a region where it cannot fix the discrepancy. [...]
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Études sur la gravitation en théorie des champs classiques et quantiquesMassart, Victor 08 1900 (has links)
Cette thèse porte sur la gravitation et certains de ses liens avec la théorie des champs. Le
point de départ de cette recherche a été l’étude de la limite newtonienne de la relativité
générale. Très vite, notre intérêt s’est porté sur l’effet du temps retardé et son rôle dans
l’absence d’aberration. Ce manque d’aberration est la raison pour laquelle la force pointe
dans la direction instantanée (extrapolée) pour des sources sans accélération, malgré la vitesse
finie de la gravitation (c’est aussi le cas pour l’électromagnétisme). Ceci nous a conduit à
calculer le champ résultant entre deux masses accélérées avec la présence d’aberration. Nous
avons en particulier considéré le mouvement de deux masses de telle façon que la force totale
de Newton à une position s’annule alors que les effets du temps retardé soient bien différents
de zéro. Nous avons pu calculer ces derniers et proposer deux situations où ils pourraient
être observés dans le futur.
L’étude de la linéarisation de la relativité générale a naturellement porté notre intérêt sur la
physique du graviton, la version quantifiée de la théorie classique linéaire. Plusieurs travaux
sur l’impossibilité d’observer directement ce graviton [1,2] ainsi que des expériences de pensée
sur la possibilité de le quantifier ou non [3] ont piqué notre curiosité. C’est ce qui a lancé la
recherche de la section efficace (et du potentiel) dans le cas d’une diffusion gravitationnelle
sur une particule initialement dans une superposition spatiale.
En parallèle de ces recherches, des discussions avec mon collègue Kévin Nguyen et la lecture
de son article [4], ont attiré mon attention sur le problème de la constante cosmologique
et l’élégante solution proposée. Cette dernière est basée sur l’ajout d’un scalaire couplé
non minimalement avec la gravité et permet d’expliquer la valeur minuscule de la constante
cosmologique par certains très petits paramètres du champ scalaire. Leur solution était
cependant encore très théorique, car elle n’était valable que dans un univers sans matière.
Nous avons donc analysé l’effet de la matière sur l’évolution du champ scalaire et montré
que dans une partie de l’espace des paramètres, la théorie considérée résolvait le problème
de la constante cosmologique tout en restant indistinguable de la relativité générale. / This thesis concerns gravitation and some of its connections with field theory. The starting
point of this research was the study of the Newtonian limit of general relativity. Our interest
was focused on the effect of retarded time and its role in the absence of aberration. Lack of
aberration is the reason why the gravitational force points in the instantaneous (extrapolated)
direction for unaccelerated sources, despite the finite speed of propagation of gravity (this also
holds true for electromagnetism). Naturally this led us to compute the resulting gravitational
field of accelerating masses, where aberration is not absent. In particular, we considered the
motion of two masses such that their total Newtonian force at a position vanished but the
retarded gravitational effects were non-zero. We were able to calculate these retarded effects
and to propose two situations where they could be observed in the future.
The study of the linearization of general relativity naturally arouse our interest toward
the physics of gravitons, the quantized version of the linear classical theory. In particular,
there has been much thought and literature on the impossibility of directly observing a
graviton [1, 2] as well as thought experiments on the possibility of quantizing gravity or
not [3]. This led to the calculation of the cross section (and gravitational potential) in the
case of the gravitational scattering off a massive particle that is in a spatially non-local
quantum superposition.
In parallel with this research, some discussions with my colleague Kévin Nguyen about
his article [4] on the problem of the cosmological constant, focussed my interest on this
problem and the elegant solution proposed. The solution is based on the addition of a nonminimally
coupled scalar and makes it possible to explain the tiny value of the cosmological
constant through some small parameters of the scalar field. The solution is however very
theoretical as it was only done in a matter free universe. We therefore examined at the effect
of different kinds of matter on the evolution of the scalar field. We show that in one part of
the parameter space, the theory we considered resolved the cosmological constant problem
while being indistinguishable from general relativity.
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The modernity/tradition interface amongst urban black South AfricansBonora, Franco 01 January 2002 (has links)
Since the 1950s modernization theory predicted within the Third World a trajectory for social evolution and development mirroring perceived
social and developmental evolution in Western societies since the 17th
Century. Despite this theory being much discredited in both Western
societies and the developing world; this theory still forms the basis for
much analysis and policy formulation within post-1990 South Africa. This
thesis looks at various aspects of urban black South Africans' existence
and concludes that African tradition has found a place within an urban
existence due to it's flexibility in dealing with peoples' daily challenges.
An urban existence can thus no-longer be thought of as supplanting
tradition in favour of western influences, but rather as bringing about a
mixture of western and traditional influences - with positive and negative
theoretical and practical developmental consequences / Development Studies / M.A.
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Cosmologia usando aglomerados de galáxias no Dark Energy Survey / Cosmology with Galaxy Clusters in the Dark Energy SurveySilva, Michel Aguena da 03 August 2017 (has links)
Aglomerados de galáxias são as maiores estruturas no Universo. Sua distribuição mapeia os halos de matéria escura formados nos potenciais profundos do campo de matéria escura. Consequentemente, a abundância de aglomerados é altamente sensível a expansão do Universo, assim como ao crescimento das perturbações de matéria escura, constituindo uma poderosa ferramenta para fins cosmológicos. Na era atual de grandes levantamentos observacionais que produzem uma quantidade gigantesca de dados, as propriedades estatísticas dos objetos observados (galáxias, aglomerados, supernovas, quasares, etc) podem ser usadas para extrair informações cosmológicas. Para isso, é necessária o estudo da formação de halos de matéria escura, da detecção dos halos e aglomerados, das ferramentas estatísticas usadas para o vínculos de parâmetros, e finalmente, dos efeitos da detecções ópticas. No contexto da formulação da predição teórica da contagem de halos, foi analisada a influência de cada parâmetro cosmológico na abundância dos halos, a importância do uso da covariância dos halos, e a eficácia da utilização dos halos para vincular cosmologia. Também foi analisado em detalhes os intervalos de redshift e o uso de conhecimento prévio dos parâmetros ({\\it priors}). A predição teórica foi testada um uma simulação de matéria escura, onde a cosmologia era conhecida e os halos de matéria escura já haviam sido detectados. Nessa análise, foi atestado que é possível obter bons vínculos cosmológicos para alguns parâmetros (Omega_m,w,sigma_8,n_s), enquanto outros parâmetros (h,Omega_b) necessitavam de conhecimento prévio de outros testes cosmológicos. Na seção dos métodos estatísticos, foram discutidos os conceitos de {\\it likelihood}, {\\it priors} e {\\it posterior distribution}. O formalismo da Matriz de Fisher, bem como sua aplicação em aglomerados de galáxias, foi apresentado e usado para a realização de predições dos vínculos em levantamentos atuais e futuros. Para a análise de dados, foram apresentados métodos de Cadeias de Markov de Monte Carlo (MCMC), que diferentemente da Matriz de Fisher não assumem Gaussianidade entre os parâmetros vinculados, porém possuem um custo computacional muito mais alto. Os efeitos observacionais também foram estudados em detalhes. Usando uma abordagem com a Matriz de Fisher, os efeitos de completeza e pureza foram extensivamente explorados. Como resultado, foi determinado em quais casos é vantajoso incluir uma modelagem adicional para que o limite mínimo de massa possa ser diminuído. Um dos principais resultados foi o fato que a inclusão dos efeitos de completeza e pureza na modelagem não degradam os vínculos de energia escura, se alguns outros efeitos já estão sendo incluídos. Também foi verificados que o uso de priors nos parâmetros não cosmológicos só afetam os vínculos de energia escura se forem melhores que 1\\%. O cluster finder(código para detecção de aglomerados) WaZp foi usado na simulação, produzindo um catálogo de aglomerados. Comparando-se esse catálogo com os halos de matéria escura da simulação, foi possível investigar e medir os efeitos observacionais. A partir dessas medidas, pôde-se incluir correções para a predição da abundância de aglomerados, que resultou em boa concordância com os aglomerados detectados. Os resultados a as ferramentas desenvolvidos ao longo desta tese podem fornecer um a estrutura para a análise de aglomerados com fins cosmológicos. Durante esse trabalho, diversos códigos foram desenvolvidos, dentre eles, estão um código eficiente para computar a predição teórica da abundância e covariância de halos de matéria escura, um código para estimar a abundância e covariância dos aglomerados de galáxias incluindo os efeitos observacionais, e um código para comparar diferentes catálogos de halos e aglomerados. Esse último foi integrado ao portal científico do Laboratório Interinstitucional de e-Astronomia (LIneA) e está sendo usado para avaliar a qualidade de catálogos de aglomerados produzidos pela colaboração do Dark Energy Survey (DES), assim como também será usado em levantamentos futuros. / Abstract Galaxy clusters are the largest bound structures of the Universe. Their distribution maps the dark matter halos formed in the deep potential wells of the dark matter field. As a result, the abundance of galaxy clusters is highly sensitive to the expansion of the universe as well as the growth of dark matter perturbations, representing a powerful tool for cosmological purposes. In the current era of large scale surveys with enormous volumes of data, the statistical quantities from the objects surveyed (galaxies, clusters, supernovae, quasars, etc) can be used to extract cosmological information. The main goal of this thesis is to explore the potential use of galaxy clusters for constraining cosmology. To that end, we study the halo formation theory, the detection of halos and clusters, the statistical tools required to quarry cosmological information from detected clusters and finally the effects of optical detection. In the composition of the theoretical prediction for the halo number counts, we analyze how each cosmological parameter of interest affects the halo abundance, the importance of the use of the halo covariance, and the effectiveness of halos on cosmological constraints. The redshift range and the use of prior knowledge of parameters are also investigated in detail. The theoretical prediction is tested on a dark matter simulation, where the cosmology is known and a dark matter halo catalog is available. In the analysis of the simulation we find that it is possible to obtain good constraints for some parameters such as (Omega_m,w,sigma_8,n_s) while other parameters (h,Omega_b) require external priors from different cosmological probes. In the statistical methods, we discuss the concept of likelihood, priors and the posterior distribution. The Fisher Matrix formalism and its application on galaxy clusters is presented, and used for making forecasts of ongoing and future surveys. For the real analysis of data we introduce Monte Carlo Markov Chain (MCMC) methods, which do not assume Gaussianity of the parameters distribution, but have a much higher computational cost relative to the Fisher Matrix. The observational effects are studied in detail. Using the Fisher Matrix approach, we carefully explore the effects of completeness and purity. We find in which cases it is worth to include extra parameters in order to lower the mass threshold. An interesting finding is the fact that including completeness and purity parameters along with cosmological parameters does not degrade dark energy constraints if other observational effects are already being considered. The use of priors on nuisance parameters does not seem to affect the dark energy constraints, unless these priors are better than 1\\%.The WaZp cluster finder was run on a cosmological simulation, producing a cluster catalog. Comparing the detected galaxy clusters to the dark matter halos, the observational effects were investigated and measured. Using these measurements, we were able to include corrections for the prediction of cluster counts, resulting in a good agreement with the detected cluster abundance. The results and tools developed in this thesis can provide a framework for the analysis of galaxy clusters for cosmological purposes. Several codes were created and tested along this work, among them are an efficient code to compute theoretical predictions of halo abundance and covariance, a code to estimate the abundance and covariance of galaxy clusters including multiple observational effects and a pipeline to match and compare halo/cluster catalogs. This pipeline has been integrated to the Science Portal of the Laboratório Interinstitucional de e-Astronomia (LIneA) and is being used to automatically assess the quality of cluster catalogs produced by the Dark Energy Survey (DES) collaboration and will be used in other future surveys.
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Effets de lentille gravitationnelle sur le rayonnement de fond cosmiqueBenabed, Karim 12 November 2001 (has links) (PDF)
On s'intéressera, dans ce mémoire, à certains aspects phénoménologiques de l'évolution des grandes structures de l'univers, dans le cadre des modèles inflationnaires. La relativité générale prédit que le trajet des rayons lumineux est perturbé par les puits de potentiels gravitationnels ; on appelle ce phénomène, effet de lentille gravitationnelle. On donnera une description très précise de cet effet sur la lumière du rayonnement de fond micro-onde, les anisotropies de sa température et sa polarisation. Pour ce faire, après avoir exposé les grandes lignes du modèle, on rappellera comment se calculent les anisotropies de température et la polarisation ainsi que les propriétés de l'évolution des grandes structures. Le calcul de l'effet de lentille gravitationnelle sera aussi rappelé en détail. On sera ainsi en mesure d'étudier l'effet de lentille gravitationnelle sur le rayonnement de fond dans deux régimes : celui fort, dans le cas d'un effet induit par une corde cosmique, et celui faible où les sources sont les grandes structures de l'univers. On montrera, dans ce dernier cas, que température et polarisation du rayonnement de fond portent des informations sur l'histoire des grandes structures entre aujourd'hui et son époque d'émission. On exposera et l'on caractérisera une technique particulièrement prometteuse visant à extraire cette information, et qui consiste à comparer rayonnement de fond et relevés de forme des champs galactiques d'arrière plan. On étudiera aussi les enseignement que peuvent apporter ce genre d'observables sur le modèle cosmologique. Enfin, on s'attardera sur une classe de modèles exotiques dans laquelle la constante cosmique est remplacée par une composante nouvelle, la quintessence. On étudiera l'évolution des grandes structures dans ces modèles et on en tirera les conséquences phénoménologiques sur l'effet de lentille gravitationnelle.
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