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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the 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.
1

Evolu??o top-hat hidrodin?mica em campos de velocidades peculiares primordiais / Hydrodynamics Top-Hat Evolution in Primordial Peculiar Velocities Fields

Souza, Hidalyn Theodory Clemente Mattos de 16 February 2012 (has links)
Made available in DSpace on 2014-12-17T15:14:57Z (GMT). No. of bitstreams: 1 HidalynTC_TESE.pdf: 3025002 bytes, checksum: 560b594294d11c4905312394b1d53359 (MD5) Previous issue date: 2012-02-16 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / We investigate the cosmology of the vacuum energy decaying into cold dark matter according to thermodynamics description of Alcaniz & Lima. We apply this model to analyze the evolution of primordial density perturbations in the matter that gave rise to the first generation of structures bounded by gravity in the Universe, called Population III Objects. The analysis of the dynamics of those systems will involve the calculation of a differential equation system governing the evolution of perturbations to the case of two coupled fluids (dark matter and baryonic matter), modeled with a Top-Hat profile based in the perturbation of the hydrodynamics equations, an efficient analytical tool to study the properties of dark energy models such as the behavior of the linear growth factor and the linear growth index, physical quantities closely related to the fields of peculiar velocities at any time, for different models of dark energy. The properties and the dynamics of current Universe are analyzed through the exact analytical form of the linear growth factor of density fluctuations, taking into account the influence of several physical cooling mechanisms acting on the density fluctuations of the baryonic component of matter during the evolution of the clouds of matter, studied from the primordial hydrogen recombination. This study is naturally extended to more general models of dark energy with constant equation of state parameter in a flat Universe / Investigamos a cosmologia da energia do v?cuo decaindo em mat?ria escura fria de acordo com a descri??o termodin?mica de Alcaniz & Lima. Aplicamos esse modelo na an?lise da evolu??o de perturba??es de densidade primordiais na mat?ria que deram origem a primeira gera??o de estruturas ligadas pela gravidade no Universo, os chamados Objetos da Popula??o III. A an?lise da din?mica desses sistemas envolver? o c?lculo de um sistema de equa??es diferenciais que governam a evolu??o de perturba??es para o caso de dois fluidos acoplados (mat?ria escura e mat?ria bari?nica), modelados com um perfil Top-Hat baseado na perturba??o das equa??es da hidrodin?mica, uma ferramenta anal?tica eficiente para estudar as propriedades dos modelos de energia escura, como o comportamento do fator de crescimento linear e o ?ndice de crescimento, grandezas f?sicas intimamente relacionadas aos campos de velocidades peculiares em qualquer ?poca, para diferentes modelos de energia escura. As propriedades e a din?mica do Universo atual s?o analisadas atrav?s da forma anal?tica exata do fator de crescimento linear de flutua??es de densidade, levando em considera??o a influ?ncia de v?rios mecanismos f?sicos de esfriamento atuando sobre as flutua??es de densidade da componente bari?nica da mat?ria durante a evolu??o das nuvens de mat?ria, estudadas desde a recombina??o primordial do hidrog?nio. Esse estudo ? naturalmente estendido aos modelos mais gerais de energia escura com o par?metro da equa??o de estado constante em um Universo plano
2

Evolu??o de estruturas primordiais

Souza, Hidalyn Theodory Clemente Mattos de 26 April 2007 (has links)
Made available in DSpace on 2014-12-17T15:15:05Z (GMT). No. of bitstreams: 1 HidalynTCMS.pdf: 3137452 bytes, checksum: c9101961e25b2af76cdd7d74bfe14bb5 (MD5) Previous issue date: 2007-04-26 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Understanding the way in which large-scale structures, like galaxies, form remains one of the most challenging problems in cosmology today. The standard theory for the origin of these structures is that they grew by gravitational instability from small, perhaps quantum generated, ?uctuations in the density of dark matter, baryons and photons over an uniform primordial Universe. After the recombination, the baryons began to fall into the pre-existing gravitational potential wells of the dark matter. In this dissertation a study is initially made of the primordial recombination era, the epoch of the formation of the neutral hydrogen atoms. Besides, we analyzed the evolution of the density contrast (of baryonic and dark matter), in clouds of dark matter with masses among 104M? ? 1010M?. In particular, we take into account the several physical mechanisms that act in the baryonic component, during and after the recombination era. The analysis of the formation of these primordial objects was made in the context of three models of dark energy as background: Quintessence, ?CDM(Cosmological Constant plus Cold Dark Matter) and Phantom. We show that the dark matter is the fundamental agent for the formation of the structures observed today. The dark energy has great importance at that epoch of its formation / Entender o modo pelo qual estruturas em grande-escala, como gal?xias, se formam permanece um dos problemas mais desafiadores em cosmologia hoje. A teoria padr?o para a origem destas estruturas ? que elas cresceram por instabilidade gravitacional de pequenas, talvez geradas quanticamente, flutua??es na densidade de mat?ria escura, b?rions e f?tons sobre um Universo primordial uniforme. Depois da recombina??o, os b?rions come?aram a cair nos po?os de potencial gravitacional pr?-existentes de mat?ria escura. Nesta disserta??o ? feito inicialmente um estudo da era da recombina??o primordial, a ?poca da forma??o dos ?tomos de hidrog?nio neutro. Al?m disso, analisamos a evolu??o do contraste de densidade (de mat?ria bari?nica e escura), em nuvens de mat?ria escura com massas entre milhares e bilh?es de massas solares. Em particular, na an?lise da componente bari?nica, levamos em conta os v?rios mecanismos f?sicos que ocorrem nela durante e depois da era da recombina??o. A an?lise da forma??o desses objetos primordiais foi feita no contexto de tr?s modelos de energia escura como background ': Quintess?ncia, CDM (Constante Cosmol?gica mais Mat?ria Escura Fria) e Fantasma. Mostramos que a mat?ria escura ? o agente fundamental para forma??o das estruturas observadas hoje. A energia escura tem grande import?ncia na ?poca de sua forma??o

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