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Hobby-Eberly Telescope Chemical Abundances of Stars in the Halo (CASH) project : spectroscopic analyses of the first ~80 starsHollek, Julie Ann 11 February 2011 (has links)
The Hobby-Eberly Telescope Chemical Abundances of Stars in the Halo (CASH) project aims to characterize the nature of the early universe through the study of metal-poor stars in the stellar halo of the galaxy. Once completed, this will be the largest set of abundances determined for metal-poor stars from high resolution spectra. In this paper, we present chemical abundances and trends of eleven elements for the first ~80 stars of the ~500 star study. These 80 stars serve as a pilot sample to test the automated stellar parameter and abundance determination pipeline newly developed for the CASH project called CASHCODE. Among the pilot sample, two stars with [Fe/H]<-3.5 were discovered and their abundance analysis is discussed. / text
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Chemical Composition Of Selected Metal Poor StarsAmbika, S 07 1900 (has links) (PDF)
No description available.
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Temperature scales and the "lithium problem"Hosford, A. January 2010 (has links)
The discovery of the Spite plateau in the abundances of 7Li for metal-poor stars led to the determination of an observationally deduced primordial lithium abundance. However, with the determination of the baryon density, Omega_B_h^2, from the Wilkinson Microwave Anisotropy Probe (WMAP) data, a discrepancy arose between observationally determined and theoretically determined abundances of 7Li. This is what has become known as the “lithium problem”. Of all the uncertain factors in determining a stellar Li abundance, the effective temperature is the most important. This thesis is concerned with determining an accurate effective temperature scale for metal-poor halo dwarfs, paying specific attention to eliminating any possible systematic errors. This is done by utilising the exponential term, Chi/T, of the Boltzmann equation. Two assumptions are adopted; firstly the simplifying assumptions of local thermodynamic equilibrium (LTE), and secondly the more sophisticated techniques of non-local thermodynamic equilibrium (NLTE). The temperature scales are compared to others derived using different techniques; a photometric scale, where I find comparable Teff in LTE and hotter temperatures by an average of ~ 150 K in NLTE; a scale derived using Balmer lines, for which I have comparable values in LTE and hotter Teff values, by typically 110 K – 160 K, in NLTE; and finally a scale derived using an infrared flux method (IRFM). Here I find their Teff values are hotter by ~ 250 K for LTE and ~ 190 K in NLTE. Lithium abundances are then calculated for the program stars and a mean Li abundance is derived. I find values ranging from A(Li) = 2.10 dex – 2.16 dex with the LTE scales and A(Li) = 2.19 dex – 2.21 dex for the NLTE scales. These mean Li abundances are compared to other observationally deduced abundances, for which I find comparable results in LTE and higher values in NLTE, and to the WMAP + big bang nucleosynthesis calculated Li abundance. I find that my new values are still considerably lower than the WMAP value and are therefore unable to reconcile the lithium problem. Second to this primary investigation, I use Ti as an independent test of the derived Teff values and log g’s. I find that Ti is not a useful constraint on the temperatures or, therefore, on the lithium problem. I also assess the impact of the new Teff scales on the different models of Galactic chemical evolution (GCE), comparing newly calculated abundances with GCE determined abundances. It was found that trends exist in several of the elements; however, these were not statistically relevant. Also a larger degree of scatter was found in the abundances compared to the Arnone et al. (2005). This scatter was not to the degree found in the Argast et al. (2000). Reasons for the differences have been discussed.
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Modelling barium isotopes in metal-poor starsGallagher, Andrew James January 2012 (has links)
The principal theory concerning the origin of the elements heavier than the Fe-peak, such as Ba, strongly suggest that for old, metal-poor environments, the rapid (r-) process is the most likely path taken in their synthesis, while the slow (s-) process becomes more substantial in younger, more metal-rich stellar populations. In this work I test this theory by evaluating the isotope ratios of Ba. It is understood that Ba consists of seven stable isotopes, five of which are synthesised by the two neutron-capture processes. The two odd isotopes, 135,137Ba, as well as 138Ba are synthesised via both the r- and s-processes while two of the even isotopes, 134,136Ba are synthesised via the s-process only. The relative contribution of the r- and s-process to these isotopes can be understood via nucleosynthesis calculations and is described using the parameter fodd, where fodd = [N (135Ba) + N (137Ba)] /N (Ba). Low values of fodd (~0.11) indicate an s-process regime, while high values of fodd (~0.46) indicate an r-process regime. In the Ba II 4554 A line the even isotopes lie close to the line centre, while the odd isotopes, which are hyperfine split because of their non-zero nuclear spin, lie in the wings of the line. From an analysis of the line profile shape, one can determine whether Ba has been synthesised primarily through the r-process or s-process; a broad, asymmetric line would indicate a high r-process contribution, while a line with a deeper core and shallower wings would indicate a high s-process contribution. Using the radiative transfer code ATLAS, which assumes local thermodynamic equilibrium (LTE) and employs 1-dimensional (1D) KURUCZ06 model atmospheres, I synthesised line profiles for six metal-poor stars: HD140283, HD122563, HD88609, HD84937, BD-04 3208 and BD+26 3578 - for a range of isotope ratios. All six are of sufficiently low metallicity that Ba was expected to have an r-process origin. These were fit to high resolution (R\equiv \lamda/\Delta\lamda = 90 000 - 95 000), high signal-to-noise to the Ba II 4554 A line which has multiple components. In the first test, synthetic spectra were computed using the non local thermodynamic equilibrium (NLTE) radiative transfer code MULTI. The synthetic line profiles were fit to a number of lines in HD140283. Although this technique might have improved the fit in the line core, it was found that such a treatment did not improve upon fitting errors associated with the best fit 1D LTE synthetic profiles. The second test used a 3-dimensional (3D) radiative transfer code (LINFOR3D) that employed 3D, time-dependent atmospheres produced with CO5BOLD. The 3D synthetic pro les were fit to a selection of Fe lines and improvements over the poor fits produced by the 1D LTE synthesis were seen. It was found that the 3D synthesis could almost completely reproduce the line asymmetries seen in the observed stellar spectrum. This result suggests that further work to refine the 3D calculations and synthesis code would be valuable.
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A origem do carbono no universo - insights a partir de observações de estrelas pobres em metais nas nuvens de Magalhães / The origin of carbon in the Universe - insights from observations of metal-poor stars in Magellanic CloudsAlmeida, Tiago Mendes de 30 October 2009 (has links)
Neste projeto de pesquisa planeja-se obter indícios da correlação entre o conteúdo metálico estelar deduzido para a Via Láctea e os indíces metálicos obtidos para as Nuvens de Magalhães. O ponto de apoio para tal comparação é que cada encontro deixará importantes traços na eficiência de formação dos membros do tripleto. À medida que os encontros dependem da história dinâmica, suas ``impressões digitais\'\' deixadas nos conteúdos estelares colocam importantes limitações na história dinâmica e vice-versa. Para tanto, são utilizados os dados espectroscópicos já obtidos com o telescópio Magellan Clay, para uma amostra contendo 28 estrelas ricas em carbono encontradas nas Nuvens de Magalhães. A quantidade de carbono bem como a existência ou não de binaridade nas estrelas da amostra são indícios das possíveis fontes da sobreabundância do carbono. A caracterização da amostra é essencial para o estudo da relação entre duas populações estelares aparentemente distintas: a de estrelas de carbono e a de estrelas pobres em metais enriquecidas em carbono. Para tanto, são utilizados catálogos de espectros assim como critérios fotométricos. A descoberta de alguma relação entre as duas populações pode ajudar a esclarecer o problema dos processos de enriquecimento de carbono, notado nas atmosferas estelares. A futura determinação dos parâmetros físicos das estrelas que compõem a amostra pode revelar detalhes sobre a história de formação estelar dos objetos das Nuvens e, portanto, vincular a evolução dessas duas galáxias-satélites à história da Via Láctea. / This project searches for signs of correlation between metallic stellar content, available for the Milky Way, and the metallicities indices obtained for the Magellanic Clouds. This comparison is supported by the traces on the formation of these three galaxies, that should have been left by each triplet members encounter. Since these crosses depend on the dynamical history, their fingerprints left by stellar content can estabilish constraints to the Galactic dynamical history. Spectroscopic data for a sample of carbon stars, obtained on the Magellanic Telescope, are used in this work. The amount of carbon, as the existence or not of binary stars in this sample, indicates possible sources of this element. The determination of sample properties is essential for studying the constraints between two stellar populations that are apparently distincts: carbon stars and carbon enhanced metal-poor stars. To do this, spectral catalogues and photometric criteria are used. Finding the correlations between both populations will bring some light to the unknown carbon enrichment processes that occured at the stellar atmospheres. Variability, emission lines, and binarity are studied for the sample. Stellar parameters are discussed, although there is no method applicable to this sample. By estimating the physical parameters of the stars presented in this sample and by analysing their carbon abundances, one can provide hints of the star formation history of objects in the Magellanic Clouds and therefore constraint the evolution of these satellite-galaxies to the Milky Way.
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A chemical abundance analysis of stars believed to be metal poor members of the galactic stellar thick diskSimmerer, Jennifer Ann 04 May 2015 (has links)
Galactic formation models have long sought to reproduce the observed chemical and kinematical properties of the Milky Way's stellar halo and disk. Recently it is the so-called "intermediate population", the stellar thick disk, that is driving advances in our understanding of the formation of spiral galaxies. The thick disk is kinematically more like the thin disk than the halo, for all the thick disk has a velocity dispersion twice that of the thin disk and rotates ~40 km/s more slowly. It is generally accepted that the thick disk's metallicity distribution function peaks at a lower metallicity than the thin disk but at higher metallicity than the halo. The lower bound of the thick disk is still uncertain, as many observational studies have found only a few thick disk candidate stars or clusters that are more metal poor than (Fe/H)=1. Beers et al. (2002) have so far proposed the largest sample of metal poor thick disk candidates, presenting 9 stars at (Fe/H)= -1.2 or lower and 46 more stars at (Fe/H)= -1 or lower, all of which are believed to belong to the thick disk. Beers et al. (2002) present possible thick disk stars as metal poor as (Fe/H)~ -2.5, roughly 1 dex lower than is suggested by current Galactic formation models (Brook et al., 2005). This study is a high-resolution spectroscopic follow-up of 29 of the stars Beers et al. (2002) and Chiba & Beers (2000) identify as potential metal poor members of the thick disk and an additional 40 stars from the cannonical thick disk, halo, and thin disk. None of the very metal-poor stars identified by Beers et al. (2002) can be confirmed as members of the thick disk and many are not metal poor at all. Only two stars more metal poor than (Fe/H)= 1.2 retain their thick disk membership. These two stars exhibit some of the chemical characteristics of the cannonical thick disk: high α-element abundances and a relatively low s--/r-- process element ratio. Also of interest are six stars with thin disk kinematic signatures but thick disk α-element abundances. That only a small number of metal poor thick disk stars could be confirmed in this study indicates that the thick disk is neither as populous nor as metal poor as has been proposed by Beers et al. (2002). / text
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A origem do carbono no universo - insights a partir de observações de estrelas pobres em metais nas nuvens de Magalhães / The origin of carbon in the Universe - insights from observations of metal-poor stars in Magellanic CloudsTiago Mendes de Almeida 30 October 2009 (has links)
Neste projeto de pesquisa planeja-se obter indícios da correlação entre o conteúdo metálico estelar deduzido para a Via Láctea e os indíces metálicos obtidos para as Nuvens de Magalhães. O ponto de apoio para tal comparação é que cada encontro deixará importantes traços na eficiência de formação dos membros do tripleto. À medida que os encontros dependem da história dinâmica, suas ``impressões digitais\'\' deixadas nos conteúdos estelares colocam importantes limitações na história dinâmica e vice-versa. Para tanto, são utilizados os dados espectroscópicos já obtidos com o telescópio Magellan Clay, para uma amostra contendo 28 estrelas ricas em carbono encontradas nas Nuvens de Magalhães. A quantidade de carbono bem como a existência ou não de binaridade nas estrelas da amostra são indícios das possíveis fontes da sobreabundância do carbono. A caracterização da amostra é essencial para o estudo da relação entre duas populações estelares aparentemente distintas: a de estrelas de carbono e a de estrelas pobres em metais enriquecidas em carbono. Para tanto, são utilizados catálogos de espectros assim como critérios fotométricos. A descoberta de alguma relação entre as duas populações pode ajudar a esclarecer o problema dos processos de enriquecimento de carbono, notado nas atmosferas estelares. A futura determinação dos parâmetros físicos das estrelas que compõem a amostra pode revelar detalhes sobre a história de formação estelar dos objetos das Nuvens e, portanto, vincular a evolução dessas duas galáxias-satélites à história da Via Láctea. / This project searches for signs of correlation between metallic stellar content, available for the Milky Way, and the metallicities indices obtained for the Magellanic Clouds. This comparison is supported by the traces on the formation of these three galaxies, that should have been left by each triplet members encounter. Since these crosses depend on the dynamical history, their fingerprints left by stellar content can estabilish constraints to the Galactic dynamical history. Spectroscopic data for a sample of carbon stars, obtained on the Magellanic Telescope, are used in this work. The amount of carbon, as the existence or not of binary stars in this sample, indicates possible sources of this element. The determination of sample properties is essential for studying the constraints between two stellar populations that are apparently distincts: carbon stars and carbon enhanced metal-poor stars. To do this, spectral catalogues and photometric criteria are used. Finding the correlations between both populations will bring some light to the unknown carbon enrichment processes that occured at the stellar atmospheres. Variability, emission lines, and binarity are studied for the sample. Stellar parameters are discussed, although there is no method applicable to this sample. By estimating the physical parameters of the stars presented in this sample and by analysing their carbon abundances, one can provide hints of the star formation history of objects in the Magellanic Clouds and therefore constraint the evolution of these satellite-galaxies to the Milky Way.
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Padrões de abundâncias entre estrelas muito pobres em metais no halo da galáxia / Abundance patterns among very metal-poor stars in the halo of the Galaxy: a statistical approachPlacco, Vinicius Moris 31 August 2007 (has links)
Um dos maiores desafios da Astrofísica é tentar compreender a complexidade da composição química das estrelas. Elementos com massas atômicas acima de A>60 são formados pelos chamados processos de captura de nêutrons (processo-s e processo-r). A presença destes em espectros de estrelas de baixa massa (longo período de vida) e com pouco conteúdo metálico sugere episódios de enriquecimento por estrelas massivas nos primórdios da Galáxia. Portanto, o estudo das estrelas chamadas \"pobres em metais\" enriquecidas por elementos formados por captura de nêutrons pode reproduzir as condições físicas dominantes à época de sua formação. O objetivo deste trabalho é explorar os padrões de abundâncias das estrelas muito pobres em metais observadas no survey HERES. Através deste estudo, é possível inferir correlações entre elementos químicos e restringir a operação dos processos de captura de nêutrons na Galáxia. Para tanto, utiliza-se técnicas estatísticas como a análise de conglomerados, que permite o estudo da formação de grupos naturais baseado na relação entre as abundâncias elementais. Este estudo fornece uma análise compreensiva de uma amostra de 382 estrelas pobres em metais, além de introduzir duas novas subclasses para estrelas pobres em metais enriquecidas em elementos formados por captura de nêutrons. / One of the most challenging subjects of Astrophysics is trying to understand the complexity of the chemical composition of stellar objects. Spectroscopic observations are widely used nowadays in order to achieve these goals, as they provide the chemical composition of the atmosphere of the stars. Elements with atomic masses above A>60 are formed by the so called neutron capture processes (r-process and s-process). Its presence on low-mass star spectra (which have long life-time) and low metal content suggests episodes of enrichment by high-mass stars that took place in the early times in the Galaxy formation. Then, the study of those \"metal-poor\" stars enriched by neutron-capture elements may help reproduce the physical conditions of the environment from where they were formed. The main goal of this project is to explore the abundance patterns of the very metal-poor stars observed by the HERES survey. This study allows the analysis of the correlations between chemical elements and place some constraints on the operation of the neutron capture processes in the early Galaxy. This approach made use of statistical tools, such as agglomerative nesting, which can identify the formation of natural groups based on relations among elemental abundances. In this context, this study provides a comprehensive analysis of a 382 metal-poor stars sample, and introduces two new subclasses for metal-poor stars with determined abundances of neutron-capture elements.
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Neutral Hydrogen And Star Formation In Extremely Metal-Deficient GalaxiesEkta, * 07 1900 (has links) (PDF)
No description available.
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Padrões de abundâncias entre estrelas muito pobres em metais no halo da galáxia / Abundance patterns among very metal-poor stars in the halo of the Galaxy: a statistical approachVinicius Moris Placco 31 August 2007 (has links)
Um dos maiores desafios da Astrofísica é tentar compreender a complexidade da composição química das estrelas. Elementos com massas atômicas acima de A>60 são formados pelos chamados processos de captura de nêutrons (processo-s e processo-r). A presença destes em espectros de estrelas de baixa massa (longo período de vida) e com pouco conteúdo metálico sugere episódios de enriquecimento por estrelas massivas nos primórdios da Galáxia. Portanto, o estudo das estrelas chamadas \"pobres em metais\" enriquecidas por elementos formados por captura de nêutrons pode reproduzir as condições físicas dominantes à época de sua formação. O objetivo deste trabalho é explorar os padrões de abundâncias das estrelas muito pobres em metais observadas no survey HERES. Através deste estudo, é possível inferir correlações entre elementos químicos e restringir a operação dos processos de captura de nêutrons na Galáxia. Para tanto, utiliza-se técnicas estatísticas como a análise de conglomerados, que permite o estudo da formação de grupos naturais baseado na relação entre as abundâncias elementais. Este estudo fornece uma análise compreensiva de uma amostra de 382 estrelas pobres em metais, além de introduzir duas novas subclasses para estrelas pobres em metais enriquecidas em elementos formados por captura de nêutrons. / One of the most challenging subjects of Astrophysics is trying to understand the complexity of the chemical composition of stellar objects. Spectroscopic observations are widely used nowadays in order to achieve these goals, as they provide the chemical composition of the atmosphere of the stars. Elements with atomic masses above A>60 are formed by the so called neutron capture processes (r-process and s-process). Its presence on low-mass star spectra (which have long life-time) and low metal content suggests episodes of enrichment by high-mass stars that took place in the early times in the Galaxy formation. Then, the study of those \"metal-poor\" stars enriched by neutron-capture elements may help reproduce the physical conditions of the environment from where they were formed. The main goal of this project is to explore the abundance patterns of the very metal-poor stars observed by the HERES survey. This study allows the analysis of the correlations between chemical elements and place some constraints on the operation of the neutron capture processes in the early Galaxy. This approach made use of statistical tools, such as agglomerative nesting, which can identify the formation of natural groups based on relations among elemental abundances. In this context, this study provides a comprehensive analysis of a 382 metal-poor stars sample, and introduces two new subclasses for metal-poor stars with determined abundances of neutron-capture elements.
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