PHASE SPACE ANALYSIS OF COSMOLOGICAL MODELS BY NONLINEAR ELECTRODYNAMICS
In this thesis, we aim to develop a cosmological model capable of explaining the evolution of the universe from its early to late-time in a continuous manner; primarily encompasses scenarios of inflation and late-time acceleration. Furthermore, we explore anisotropic inflation models to address ano...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/79838 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In this thesis, we aim to develop a cosmological model capable of explaining the evolution of the universe from its early to late-time in a continuous manner; primarily encompasses scenarios of inflation and late-time acceleration. Furthermore, we explore
anisotropic inflation models to address anomalies in the Cosmic Microwave Background (CMB). Both of these models are examined by proposing a Nonlinear Electrodynamic field (NLED) as a source of gravity. The evolution of the universe is examined by
analogizing the equations governing its evolution to the Hamiltonian equations of a
particle under the influence of a one-dimensional potential. Phase space analysis of
the inflationary model by NLED in anisotropic space-time reveals a critical point in
the form of a centre, indicating an Einstein static universe between the inflationary era
and late-time deceleration. Anisotropy is starting on small scales, undergoes expansion
simultaneously with inflation, generating primordial fluctuations on cosmological scales and ultimately serving as the seeds for the formation of large-scale structures. A
cosmological model with a continuous scenario of inflation in the early universe and
late-time expansion is developed by investigating the NLED field with non-minimal
coupling, supplemented with a cosmological constant. The phase space analysis of this
cosmological model yields two critical points: a centre and a saddle. These critical
points describe an Einstein static universe. During the early stages of the universe,
radiation, in the form of the NLED field, was the dominant factor. As the universe
evolved, it transitioned to being predominantly influenced by dark energy towards the
end of its evolution.
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