MG14 - Talk detail |
Participant |
Landim, Ricardo | |||||||
Institution |
University of Sao Paulo - Rua do Matão Travessa R Nr.187 - Sao Paulo - SP - Brazil | |||||||
Session |
BS2 |
Accepted |
Yes |
Order |
99 |
Time |
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Talk |
Poster abstract |
Title |
A model for accelerated expansion of the universe from $\mathcal{N}=1$ Supergravity | |||||
Coauthors | Elcio Abdalla | |||||||
Abstract |
In this paper we present a model for accelerated expansion of the universe, both during inflation and current expansion, from four dimensional $\mathcal{N}=1$ supergravity. We evaluated the tensor-to-scalar ratio ($r\approx 0.00034$), the scalar spectral index ($n_s\approx 0.970$) and the running spetral index ($dn_s/dk\approx -6\times10^{-5}$), and we noticed that these parameters are in agreement with Planck+WP+lensing data and with BICEP2/Keck and Planck joint analysis, at $95\%$ CL. The number of e-folds is $\sim 2\times 10^2$, thus greater than the minimum required in inflationary models. The reheating period has an associated temperature $T_R\sim10^{12}$ Gev, which agrees with the required by thermal leptogenesis. Regarding the scalar field as dark energy, the autonomous system for the scalar field in the presence of a barotropic fluid provides a stable fixed point that leads to a late-time accelerated expansion of the universe, with an equation of state that mimics the cosmological constant ($w_\Phi\approx -0.997$). |
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Pdf file |
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Session |
BS2 |
Accepted |
Yes |
Order |
99 |
Time |
||
Talk |
Poster abstract |
Title |
In ation and Dark Energy from a Scalar Field in Supergravity | |||||
Coauthors | ||||||||
Abstract |
In this paper we present a model for accelerated expansion of the universe, both during inflation and the present stage of the expansion, from four dimensional $\mathcal{N}=1$ supergravity. We evaluate the tensor-to-scalar ratio ($r\approx 0.00034$), the scalar spectral index ($n_s\approx 0.970$) and the running spetral index ($dn_s/dk\approx -6\times10^{-5}$), and we notice that these parameters are in agreement with Planck+WP+lensing data and with BICEP2/Keck and Planck joint analysis, at $95\%$ CL. The number of e-folds is $50$ or higher. The reheating period has an associated temperature $T_R\sim10^{12}$ GeV, which agrees with the one required by thermal leptogenesis. Regarding the scalar field as dark energy, the autonomous system for it in the presence of a barotropic fluid provides a stable fixed point that leads to a late-time accelerated expansion of the universe, with an equation of state that mimics the cosmological constant ($w_\Phi\approx -0.997$). |
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Pdf file |
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Session |
DE1 |
Accepted |
Yes |
Order |
99 |
Time |
||
Talk |
Poster abstract |
Title |
Inflation and Dark Energy from a Scalar Field in Supergravity | |||||
Coauthors | ||||||||
Abstract |
In this paper we present a model for accelerated expansion of the universe, both during inflation and the present stage of the expansion, from four dimensional $\mathcal{N}=1$ supergravity. We evaluate the tensor-to-scalar ratio ($r\approx 0.00034$), the scalar spectral index ($n_s\approx 0.970$) and the running spetral index ($dn_s/dk\approx -6\times10^{-5}$), and we notice that these parameters are in agreement with Planck+WP+lensing data and with BICEP2/Keck and Planck joint analysis, at $95\%$ CL. The number of e-folds is $50$ or higher. The reheating period has an associated temperature $T_R\sim10^{12}$ GeV, which agrees with the one required by thermal leptogenesis. Regarding the scalar field as dark energy, the autonomous system for it in the presence of a barotropic fluid provides a stable fixed point that leads to a late-time accelerated expansion of the universe, with an equation of state that mimics the cosmological constant ($w_\Phi\approx -0.997$). |
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Pdf file |
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Session |
DE1 |
Accepted |
Yes |
Order |
99 |
Time |
||
Talk |
Poster abstract |
Title |
Coupled tachyonic dark energy: a dynamical analysis | |||||
Coauthors | ||||||||
Abstract |
In this paper we present a dynamical analysis for a coupled tachyonic dark energy with dark matter. The tachyonic field $\phi$ is considered in the presence of barothropic fluids (matter and radiation) and the autonomous system due to the evolution equations is studied. The three cosmological eras (radiation, matter and dark energy) are described through the critical points, for a generic potential $V(\phi)$. |
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Pdf file |
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