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" Explaining lithium enriched red giant branch stars / "
Claudia Aguilera-Gómez.
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BL
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| Record Number
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859819
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| Main Entry
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Aguilera-Gómez, Claudia
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| Title & Author
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Explaining lithium enriched red giant branch stars /\ Claudia Aguilera-Gómez.
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| Publication Statement
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Cham, Switzerland :: Springer,, [2018]
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| Series Statement
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Springer theses,
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| Page. NO
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1 online resource
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| ISBN
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3030025829
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: 3030025837
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: 9783030025823
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: 9783030025830
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9783030025823
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Includes bibliographical references.
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| Contents
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Intro; Supervisor's Foreword; Acknowledgements; Contents; 1 Introduction; 1.1 Stellar Evolutionary Models; 1.2 Lithium in Astrophysics; 1.2.1 Big Bang Nucleosynthesis and the Lithium Problem; 1.2.2 Chemical Enrichment of the Galaxy; 1.2.3 Lithium in Stars; 1.3 Red Giant Branch Stars; 1.3.1 Lithium-Rich Giants; 1.4 Outline of This Thesis; References; Part I Scenarios of Lithium Enrichment; 2 Internal Mechanisms; 2.1 Rotationally Induced Mixing; 2.2 Thermohaline Mixing; 2.3 Magnetic Mechanisms and Magneto-Thermohaline Mixing; 2.4 Summary; References; 3 External Mechanisms; 3.1 Binary Companions
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3.2 Substellar Companion Engulfment3.2.1 Models; Star; Substellar Companion; SSC Li Content; Assumptions; 3.2.2 Point of SSC Dissipation; 3.2.3 Surface Li Abundance; Engulfment of One SSC; Changing the Engulfed SSC; Changing the Starting Li Abundance of the Host Star; 3.2.4 Rates of Li Enrichment; 3.2.5 SSC Engulfment Models in Perspective; 3.2.6 Other Observational Constraints; 3.2.7 Evolution of 6Li Abundance; 3.3 Summary; References; Part II Observational Applications; 4 Trumpler 20; 4.1 The Possibility of Extra-Mixing in the Trumpler 20 Giants
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4.2 The Two Li-Rich Giants in Trumpler 20: Possible Engulfment4.3 Summary; References; 5 Field Giants; 5.1 Sample Selection; 5.2 Measuring the Li Abundance of the Sample; 5.3 Comparison with Other Works; 5.4 Results; 5.5 Summary; References; 6 Stars with Low Main Sequence Li Abundances; 6.1 Target Selection and Observations; 6.2 Assembling the Catalog; 6.3 An Overview of the Catalog; 6.4 The Lithium Desert; 6.4.1 Characterizing Stars Around the Li Desert; 6.4.2 Characterizing the Mass, Metallicity, and Evolutionary Stage of the Li Desert; 6.4.3 The Origin of the Li Desert
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Stars Above the Desert and Stars Below the DesertStars Below the Desert and Stars in the Li Dip; 6.5 Discussion; 6.6 Summary; References; Part III Summary and Future Work; 7 Summary and Future Work
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| Abstract
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This thesis provides new insights into the seemingly anomalous ubiquity of lithium-rich red giant stars. The theory of stellar evolution, one of the most successful models of modern astrophysics, predicts that red giant stars should display negligible levels of lithium (Li) on their surfaces. However, Li-rich giants, defined as those showing more than three times the Li content of the Sun, are found everywhere astronomers look in apparent defiance of established theory. The author addresses this problem, analyzing the different possible explanations for such an anomaly, which include interaction with a binary companion, the production of Li in the interior of the star with its subsequent transport to stellar exteriors, and the stellar interaction with planets. The author focuses on this last possibility, where the Li enrichment may be due to the ingestion of planets or brown dwarfs as the stars in question grew in size while becoming giants. She shows that this process is indeed able to explain an important fraction of giants with Li levels above the three times solar threshold, but that some other mechanism is needed to explain the remaining fraction. While this is an important discovery in its own right, the result that makes this thesis groundbreaking is its demonstration that the threshold between Li-normal and Li-rich is mass dependent rather than a fixed proportion of the Sun's content. This corrects a fundamental misapprehension of the phenomenon and opens up a new framework in which to understand and solve the problem. Finally, the author presents interesting observational applications and samples with which to test this new approach to the problem of Li enrichment in giants.
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Lithium.
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Red giants.
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Lithium.
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Red giants.
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SCIENCE-- Astronomy.
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| Dewey Classification
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523.88
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| LC Classification
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QB843.R42
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