Global ETD Search

21	From galaxy clustering to dark matter clustering Yoo, Jaiyul, January 2007 (has links) Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 157-163).
22	ISW eﬀect through dark energy quintessence and ΛCDM models Rivera Echeverri, José David [UNESP] 21 February 2013 (has links) (PDF) Made available in DSpace on 2014-06-11T19:25:34Z (GMT). No. of bitstreams: 0 Previous issue date: 2013-02-21Bitstream added on 2014-06-13T20:26:58Z : No. of bitstreams: 1 riveraecheverri_jd_me_ift.pdf: 457386 bytes, checksum: 5d639a5ed022bc76e4f1ab784a47e8e7 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Observações atuais do satélite Wilkinson Microwave Anisotropy Probe (WMAP) da Radiação Cósmica de Fundo (CMB) e estruturas de grande escala (LSS) têm permitido melhorar os estudos das anisotropias secundárias, especialmente o efeito Sachs-Wolfe Integrado (ISW). Usando a correlação cruzada entre a CMB e mapas da LSS, o sinal do efeito ISW pode ser detectado. Nós podemos usar o efeito ISW junto com o modelo cosmológico padrão (neste caso o Universo esta dominado pela constante cosmológica e a Matéria Escura Fria, ΛCDM) mais algoritmos numéricos para restringir os parâmetros em um modelo cosmológico com energia escura. Para diferentes casos com um único parâmetro livre de um model de Quintessência parametrizado,' w IND. 0' < 0 e 2,0 < 'w IND. a' <−2,0, podemos encontrar bins de largura [−1,926,−0,323] em 'w ind. 0' e [−0,855, 1,190]. Nestes intervalos, obtemos um sigma de nivel tomando o 68% da amostra que melhor se ajusta ao modelo cosmológico padrão / Current observations of the Wilkinson Microwave Anisotropy Probe (WMAP) satellite of Cosmic Microwave Background (CMB) and Large Scale Structure (LSS) have allowed to improve studies of the secondary anisotropies, especially the Integrated Sachs-Wolfe eﬀect (ISW). Using the cross-correlation between the CMB and LSS maps, the ISW eﬀect signal can be detected. We can use the ISW eﬀect together with standard cosmological model (in this case the Universe is dominated by the cosmological constant and Cold Dark Matter, ΛCDM) plus numerical algorithms to constrain the parameters in a cosmological model with dark energy. For cases diﬀerent with a single free parameter of a parameterised Quintessence model, 'w ind. 0' < 0 and 2,0 < 'w ind. a' <−2,0, we can ﬁnd bins of width [−1,926,−0,323] in 'w ind. 0' and [−0,855, 1,190] in wa. In these intervals, we obtain one sigma level by taking the 68% of the sample which best ﬁt the standard cosmological model Energia escura (Astronomia) Espectro de potência Radiação cosmica de fundo Dark energy (Astronomy)
23	Probing the expansion history of the universe using upernovae and Baryon Acoustic Oscillations Ali, Sahba Yahya Hamid January 2016 (has links) Philosophiae Doctor - PhD / The standard model of cosmology (the ɅCDM model) has been very successful and is compatible with all observational data up to now. However, it remains an important task to develop and apply null tests of this model. These tests are based on observables that probe cosmic distances and cosmic evolution history. Supernovae observations use the so-called `standard candle' property of SNIa to probe cosmic distances D(z). The evolution of the expansion rate H(z) is probed by the baryon acoustic oscillation (BAO) feature in the galaxy distribution, which serves as an effective `standard ruler'. The observables D(z) and H(z) are used in various consistency tests of ɅCDM that have been developed. We review the consistency tests, also looking for possible new tests. Then the tests are applied, first using existing data, and then using mock data from future planned experiments. In particular we use data from the recently commissioned Dark Energy Survey (DES) for SNIa. Gaussian Processes, and possibly other non-parametric methods, used to reconstruct the derivatives of D (z) and H (z) that are needed to apply the null tests of the standard cosmological model. This allows us to estimate the current and future power of observations to probe the ɅCDM model, which is the foundation of modern cosmology. In addition, we present an improved model of the HI galaxy number counts and bias from semi-analytic simulations, and we use it to calculate the expected yield of HI galaxies from surveys with a variety of phase 1 and 2 SKA configurations. We illustrate the relative performance of the different surveys by forecasting errors on the radial and transverse scales of the BAO feature. We use the Fisher matrix method to estimate the error bars on the cosmological parameters from future SKA HI galaxy surveys. We find that the SKA phase 1 galaxy surveys will not contend with surveys such as the Baryon Oscillation Spectroscopic Survey (BOSS) whereas the full "billion galaxy survey" with SKA phase 2 will deliver the largest dark energy Figure of Merit of any current or future large-scale structure survey. / South African Square Kilometre Array Project (SKA) and German Academic Exchange Service (DAAD) Cosmology Gaussian processes Dark energy (Astronomy) ɅCDM model Dark Energy Survey (DES)
24	The dark universe = observables and degeneracies = O universo escuro : observáveis e degenerecências / O universo escuro : observáveis e degenerecências Motta, Mariele Katherine Faria, 1983- 08 February 2013 (has links) Orientador: Pedro Cunha de Holanda / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-23T06:10:07Z (GMT). No. of bitstreams: 1 Motta_MarieleKatherineFaria_D.pdf: 1550492 bytes, checksum: f768e755d887ba2e47b72fc56b22c14f (MD5) Previous issue date: 2013 / Resumo: Gostaríamos de explorar as consequências da ausência de conhecimento prévio sobre o modelo correto para energia escura que permita interpretar as observações cosmológicas. A magnitude das distorções no espaço de redshift e da lente gravitacional fraca é determinada pela métrica na quais galáxias e luzes se propagam. Mostramos que, com observações precisas o suficiente, é possível utilizar estes dados para reconstruir a métrica no nosso cone de luz passado e portanto, o stress-anisotrópico e os potenciais gravitacionais podem ser medidos independentemente de modelo. Exploramos a degenerescência escura, ou o fato de que matéria e energia escura são indistinguíveis pois afetam o setor visível apenas através dos potenciais gravitacionais que produzem. Esta degenerescência permanece a menos que se suponha um modelo para energia escura: o bias entre galáxias e perturbações de matéria escura não pode ser determinado; e apenas quando o princípio da equivalência é assegurado, pode-se identificar a velocidade da matéria escura com a das galáxias. Mesmo com estas limitações, é possível construir testes para classes de modelos de energia escura que se baseiam em medidas em diferentes escalas e redshifts e não dependem de parametrizações ou condições iniciais. Demonstramos como se pode descartar a classe mais geral de modelos escalares-tensoriais sem precisar supor a validade do regime quasi-estático. Finalmente, discutimos como a degenerência escura se manifesta em uma análise dependente de modelo / Abstract: We would like to explore the consequences of having no prior knowledge about the correct model for dark energy that would allow us to interpret observations. The magnitude of redshift-space distortions and weak gravitational lensing is determined by the metric on which galaxies and light propagate. With precise enough observations it is then possible to use this data to reconstruct the metric on our past lightcone, therefore anisotropic stress and gravitational potentials can be measured in a model-independent way. We explore the dark degeneracy, or the fact that dark matter and dark energy are indistinguishable, for they affect the visible sector only through the gravitational potential they produce. This degeneracy remains unless a dark energy model is provided: the bias between dark matter and galaxies cannot be determined; and only when the Equivalence Principle is valid, one can identify the velocities of dark matter with that of the galaxies. In spite of these limitations, it is possible to construct tests for classes of dark energy models that are based on measurements at different scales and redshifts and do not depend on parametrizations or initial conditions. We demonstrate how one can rule out the most general class of scalar-tensor models without having to assume quasi-staticity. Finally, we discuss how the dark degeneracy manifests itself in a model-dependent analysis / Doutorado / Física / Doutora em Ciências Cosmologia Universo Energia escura (Astronomia) Matéria escura (Astronomia) Cosmology Universe Dark energy (Astronomy) Dark matter (Astronomy)
25	Modificações vetoriais na relatividade geral : aplicações cosmológicas e no sistema solar / Vector modifications of general relativity : cosmological and solar system applications Fróes, André Luís Delvas, 1985- 11 April 2008 (has links) Orientadores: Alberto Vazquez Saa, Marcelo Moraes Guzzo / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-24T01:44:37Z (GMT). No. of bitstreams: 1 Froes_AndreLuisDelvas_D.pdf: 13866800 bytes, checksum: 096d2e613867ddb45ba06cca87c00dec (MD5) Previous issue date: 2013 / Resumo: Na presente tese, após revisão do estado da arte da cosmologia observacional, dos modelos de blindagem cosmológica para campos escalares e de modelos vetoriais para energia escura, foi apresentada a pesquisa original do projeto. Ela consistiu na elaboração do primeiro modelo de blindagem cosmológico aplicável a campos vetoriais, por meio de uma modificação conforme na Relatividade Geral, dependente do módulo do campo. Nos meios onde a densidade é elevada, o campo vetorial oscila em torno de zero, enquanto em meios de baixa densidade ele possui um valor não nulo. Como resultado, o campo vetorial não afeta a evolução no Universo primordial nem gera uma quinta força ou modificações detectáveis na gravitação local. O mecanismo também pode ser utilizado para esconder violações de Lorentz em pequenas escalas. A evolução cosmológica do modelo é estudada em detalhes / Abstract: In this thesis, after a review on the state of the art on observational cosmology, screening mechanisms for scalar fields and vector field models for dark energy, the original research of this project is presented. It consisted in the creation of the first screening mechanism for vector fields, by means of a conformal modification of General Relativity, dependent on the norm of the field. In high density environments, the vector field oscillates around zero, while in low density environments it has a non-null value. As a result, the vector field doesn\'t affect the evolution in the early Universe, nor generates a fifth force or detectable modifications in local gravity. The mechanism can be used as well to hide Lorentz violations in small scales. The cosmological evolution is studied in detail / Doutorado / Física / Doutor em Ciências Cosmologia Gravitação Energia escura (Astronomia) Relatividade geral (Física) Cosmology Gravitation Dark energy (Astronomy) General relativity (Physics)
26	A study of spherical solutions in chameleon scalar-tensor theories Mohapi, Neo January 2014 (has links) The equivalence principle has proven to be central to theories of gravity, with General Relativity being the simplest and most elegant theory to embody the principle. Most alternative theories of gravity struggle to satisfy the principle and still be distinct from GR. Extensions of cosmological and quantum theories question the irrefutably of the equivalence at every scale. The possibility of an equivalence principle violation at galactic scales would be an exciting prospect. In this thesis, we will carefully examine the equivalence principle through the study of chameleon scalar-tensor theories, this will include solutions for hypothetical stars known as boson stars. Such theories find varied application, especially in cosmology, where they model dark energy and inflation. The AWE hypothesis, is an instance of this. It is a nonuniversally coupled model in which violations of the equivalence principle on galactic scales may be apparent. We investigate spherically symmetric and static solutions within the framework of this theory. The constraints obtained from galactic rotation curves results in values of the couplings that show no significant violation of the equivalence principle or values consistent with a theory of dark energy Scalar field theory Equivalence principle (Physics) General relativity (Physics) Bosons Dark energy (Astronomy) Galactic dynamics
27	Extragalactic and cosmological tests of gravity theories with additional scalar or vector fields Feix, Martin January 2011 (has links) Despite the many successes of the current standard model of cosmology on the largest physical scales, it relies on two phenomenologically motivated constituents, cold dark matter and dark energy, which account for approximately 95% of the energy-matter content of the universe. From a more fundamental point of view, however, the introduction of a dark energy (DE) component is theoretically challenging and extremely fine-tuned, despite the many proposals for its dynamics. On the other hand, the concept of cold dark matter (CDM) also suffers from several issues such as the lack of direct experimental detection, the question of its cosmological abundance and problems related to the formation of structure on small scales. A perhaps more natural solution might be that the gravitational interaction genuinely differs from that of general relativity, which expresses itself as either one or even both of the above dark components. Here we consider different possibilities on how to constrain hypothetical modifications to the gravitational sector, focusing on the subset of tensor-vector-scalar (TeVeS) theory as an alternative to CDM on galactic scales and a particular class of chameleon models which aim at explaining the coincidences of DE. Developing an analytic model for nonspherical lenses, we begin our analysis with testing TeVeS against observations of multiple-image systems. We then approach the role of low-density objects such as cosmic filaments in this framework and discuss potentially observable signatures. Along these lines, we also consider the possibility of massive neutrinos in TeVeS theory and outline a general approach for constraining this hypothesis with the help of cluster lenses. This approach is then demonstrated using the cluster lens A2390 with its remarkable straight arc. Presenting a general framework to explore the nonlinear clustering of density perturbations in coupled scalar field models, we then consider a particular chameleon model and highlight the possibility of measurable effects on intermediate scales, i.e. those relevant for galaxy clusters. Finally, we discuss the prospects of applying similar methods in the context of TeVeS and present an ansatz which allows to cast the linear perturbation equations into a more convenient form. 520
28	Black holes and the dark sector / Trous noirs et le secteur sombre Capela, Fabio 20 May 2014 (has links) This thesis is divided in two parts: the first part is dedicated to the study of black hole solutions in a theory of modified gravity, called massive gravity, that may be able to explain the actual stage of accelerated expansion of the Universe, while in the second part we focus on constraining primordial black holes as dark matter candidates.<p><p>In particular, during the first part we study the thermodynamical properties of specific black hole solutions in massive gravity. We conclude that such black hole solutions do not follow the second and third of law of thermodynamics, which may signal a problem in the model. For instance, a naked singularity may be created as a result of the evolution of a singularity-free state.<p><p>In the second part, we constrain primordial black holes as dark matter candidates. To do that, we consider the effect of primordial black holes when they interact with compact objects, such as neutron stars and white dwarfs. The idea is as follows: if a primordial black hole is captured by a compact object, then the accretion of the neutron star or white dwarf’s material into the hole is so fast that the black hole destroys the star in a very short time. Therefore, observations of long-lived compact objects impose constraints on the fraction of primordial black holes. Considering both direct capture and capture through star formation of primordial black holes by compact objects, we are able to rule out primordial black holes as the main component of dark matter under certain assumptions that are discussed.<p><p>To better understand the relevance of these subjects in modern cosmology, we begin the thesis by introducing the standard model of cosmology and its problems. We give particular emphasis to modifications of gravity, such as massive gravity, and black holes in our discussion of the dark sector of the Universe./<p>Cette thèse est divisée en deux parties :la première partie est consacrée à l’étude de certaines solutions de trous noirs dans une théorie modifiée de la gravité, appelée la gravité massive, qui peut être en mesure d’expliquer l’expansion accélérée de l’Univers; tandis que dans la seconde partie, nous nous concentrons sur des contraintes sur les trous noirs primordiaux comme candidats de matière noire.<p><p>En particulier, au cours de la première partie, nous étudions les propriétés thermodynamiques de solutions spécifiques de trous noirs en gravité massive. Nous en concluons que ces solutions de trous noirs ne suivent ni la deuxième, ni la troisième loi de la thermodynamique, ce qui semble indiquer une inconsistance dans le modèle. Par exemple, une singularité nue peut être créée à la suite de l’évolution d’un état sans aucune singularité.<p><p>Dans la deuxième partie, nous mettons des contraintes sur les trous noirs primordiaux en tant que candidats de matière noire. Pour ce faire, nous considérons l’effet des trous noirs primordiaux lorsqu’ils interagissent avec des objets compacts, tels que les étoiles à neutrons et les naines blanches. L’idée est comme suit :si un trou noir primordial est capturé par un objet compact, alors l’accrétion du matériel constituant l’étoile à neutrons ou la naine blanche est si rapide que le trou noir détruit l’étoile en un temps très court. Par conséquent, les observations d’objets compacts imposent des contraintes sur la fraction de trous noirs primordiaux. Considérant à la fois la capture directe des trous noirs primordiaux par les objets compacts et la capture au travers de la formation stellaire, nous sommes en mesure d’exclure les trous noirs primordiaux comme la composante principale de matière noire sous certaines hypothèses qui sont discutées.<p><p>Pour mieux comprendre la pertinence de ces sujets dans la cosmologie moderne, nous commençons la thèse par l’introduction du modèle standard de la cosmologie et de ses problèmes. Nous donnons une importance particulière aux modifications de la gravité, telles que la gravité massive, et aux trous noirs dans notre discussion sur le secteur sombre de l’Univers. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Physique Sciences exactes et naturelles Black holes (Astronomy) Missing mass (Astronomy) Dark energy (Astronomy) Gravitation Trous noirs (Astronomie) Matière noire (Astronomie) Energie sombre (Astronomie) Gravitation black holes modified gravity dark matter dark energy/trous noirs gravité modifiée matière noire énergie sombre
29	Theoretical and phenomenological aspects of theories with massive gravitons Bebronne, Michael 15 October 2009 (has links) Depuis sa formulation au début du 20ème siècle, la théorie de la Relativité Générale a été vérifiée avec une précision sans cesse croissante. Cette théorie prédit, entre autre, l'existence d'ondes gravitationnelles qui restent à ce jour inobservées, et ce malgré de nombreuses tentatives de détections. Ces ondes sont caractérisées par leur absence de masse. Une des questions qui se pose alors est de savoir si cette absence de masse est une condition nécessaire pour que théorie et observations concordent. Pour répondre à cette question, il est indispensable d'étudier les différents aspects des théories décrivant des ondes gravitationnelles massives. Au-delà de cet intérêt purement théorique, l'étude de ces théories est, entre autre, motivée par de récentes observations cosmologiques. Celles-ci indiquent que l'accord entre la Relativité Générale et les observations n'est possible que si on suppose l'existence de matière et d'énergie noires.<p><p>Cette thèse est dédiée à une classe de théories décrivant des ondes gravitationnelles massives. Dans un premier temps, nous résumons les différents problèmes qui surgissent lorsqu'on tente de donner une masse aux ondes gravitationnelles. Ensuite, nous introduisons une classe de modèles et étudions certaines de leurs caractéristiques.<p><p>Le premier aspect étudié concerne l'existence d'une interaction de type instantanée. De telles interactions sont possibles étant donné que l'invariance de Lorentz est spontanément brisée dans les modèles considérés. Celles-ci sont dès lors discutées et un exemple concret est fourni.<p><p>La présence d'une interaction instantanée dans ces modèles a une conséquence directe sur les solutions "trous noirs" des équations du champ. En effet, on s'attend à ce que l'interaction instantanée puisse propager de l'information à l'extérieur d'un trou noir, ce qui entraînerait une modification de ces solutions par rapport à celles de la Relativité Générale. Cette supposition est confirmée par les solutions "trous noirs" obtenues dans cette thèse. Celles-ci peuvent soit imiter une certaine quantité de matière noire, soit conduire à un champ gravitationnel répulsif.<p><p>Finalement, les mécanismes de formation des grandes structures de l'Univers (galaxies, amas de galaxies, ) sont étudiés pour les théories considérées. Cette dernière discussion démontre que ces modèles reproduisent le comportement prévu par la Relativité Générale et sont, par conséquent, en accord avec les observations. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Physique Sciences exactes et naturelles General relativity (Physics) Gravitational waves Missing mass (Astronomy) Dark energy (Astronomy) Black holes (Astronomy) Relativité générale (Physique) Ondes gravitationnelles Matière noire (Astronomie) Energie sombre (Astronomie) Trous noirs (Astronomie) theoretical physics massive gravity

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