Dark Energy And The Formation Of The Large Scale Structure Of The Universe (springer Theses)

Dark Energy And The Formation Of The Large Scale Structure Of The Universe (springer Theses)
by Jerome Gleyzes / / / PDF


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Authors: Gleyzes, Jrme Nominated as an outstanding Ph.D. thesis by the Institute for Theoretical Physics-CEA Saclay, France Introduces and explains the current exciting quest to understand the nature of cosmic inflation and accelerated expansion of the universe Presents a comprehensive pedagogical summary of theoretical cosmology Links to observable quantities are discussed in each chapter in a manner accessible to a wide readership This thesis presents several significant new results that shed light on two major puzzles of modern cosmology: the nature of inflation, the very early phase of the universe that is thought to have given rise to the large-scale structures that we observe today and that of the current accelerated expansion. In particular, it develops a clean method for characterizing linear cosmological perturbations for general theories where gravity is modified and/or affected by a new component, called dark energy, responsible for the accelerated expansion. It proposes a new extension to what were long thought to be the most general scalar field theories devoid of instabilities, and demonstrates the robustness of the relation between the energy scale of inflation and the predicted amplitude of gravitational waves. Finally, it consolidates a set of consistency relations between correlation functions of the cosmological density field and investigates the phenomenological consequences of their potential violation. Presented in a clear, succinct and rigorous style, each of these original results is both profound and important and will leave a deep mark on the field. Number of Illustrations and Tables 19 b/w illustrations Topics Cosmology Quantum Field Theories, String Theory

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