Reconstructions of the dark-energy equation of state and the inflationary potential

Barrow, John D.; Paliathanasis, Andronikos

doi:10.1007/s10714-018-2402-4

Cited by 47 publications

(37 citation statements)

References 61 publications

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“…Pl is way larger than the current value (∼ 10 −122 M 4 Pl ) of the cosmological constant Λ DE (42). So, as in the numerical example above for the numerical solution of the system for u(t), H(t) (61)-(62), we will take again the values for the parameters according to (63) meaning that we set the initial condition for the Hubble parameter to be according to (58)…”

Section: Numerical Solutionsmentioning

confidence: 99%

Dynamically Generated Inflationary ΛCDM

et al. 2020

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Our primary objective is to construct a plausible unified model of inflation, dark energy and dark matter from a fundamental Lagrangian action first principle, where all fundamental ingredients are systematically dynamically generated starting from a very simple model of modified gravity interacting with a single scalar field employing the formalism of non-Riemannian spacetime volume-elements. The non-Riemannian volume element in the initial scalar field action leads to a hidden nonlinear Noether symmetry which produces energy-momentum tensor identified as a sum of a dynamically generated cosmological constant and a dust-like dark matter. The non-Riemannian volume-element in the initial Einstein-Hilbert action upon passage to the physical Einstein-frame creates dynamically a second scalar field with a non-trivial inflationary potential and with an additional interaction with the dynamically generated dark matter. The resulting Einstein-frame action describes a fully dynamically generated inflationary model coupled to dark matter. Numerical results for observables such as the scalar power spectral index and the tensor-to-scalar ratio conform to the latest 2018 PLANCK data.

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Section: Numerical Solutionsmentioning

confidence: 99%

Dynamically Generated Inflationary ΛCDM

et al. 2020

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“…It has been shown [24,25], that the Cartan symmetries for holonomic dynamical systems are equivalent to the generalized Noether symmetries. In cosmology there are many studies in this direction (see, for example [26,27,28] and references therein).…”

Section: Introductionmentioning

confidence: 99%

Noether symmetries as a geometric criterion to select theories of gravity

Dialektopoulos

Capozziello

2018

Int. J. Geom. Methods Mod. Phys.

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We review the Noether Symmetry Approach as a geometric criterion to select theories of gravity. Specifically, we deal with Noether Symmetries to solve the field equations of given gravity theories. The method allows to find out exact solutions, but also to constrain arbitrary functions in the action. Specific cosmological models are taken into account.a Noether point symmetries are a subclass of Lie symmetries applied to dynamical systems that are described by a point Lagrangian and leave invariant the action integral.

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Section: Numerical Solutionsmentioning

confidence: 65%

“…according to (42) (in reality Λ DE is much smaller than 1/500 part of Λ 0 : Λ 0 ∼ To obtain plausible values for the observables -the scalar power spectral index n s and the tensor to scalar ratio r [53,105,171]. we need the functional dependence of the slow-roll parameters and η w.r.t.…”

Section: Numerical Solutionsmentioning

confidence: 99%

Dynamically Generated Inflationary Lambda-CDM

Benisty¹,

Guendelman²,

Nissimov

et al. 2020

Preprint

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Our primary objective is to construct a plausible unified model of inflation, dark energy and dark matter from a fundamental Lagrangian action first p rinciple, w here a ll fundamental ingredients are systematically dynamically generated starting from a very simple model of modified gravity interacting with a single scalar field employing the formalism of non-Riemannian spacetime volume-elements. The non-Riemannian volume element in the initial scalar field action leads to a hidden nonlinear Noether symmetry which produces energy-momentum tensor identified as a sum of a dynamically generated cosmological constant and a dust-like dark matter. The non-Riemannian volume-element in the initial Einstein-Hilbert action upon passage to the physical Einstein-frame creates dynamically a second scalar field w ith a n on-trivial i nflationary po tential an d wi th an additional interaction with the dynamically generated dark matter. The resulting Einstein-frame action describes a fully dynamically generated inflationary model coupled to dark matter. Numerical results for observables such as the scalar power spectral index and the tensor-to-scalar ratio conform to the latest 2018 PLANCK data.

show abstract

Reconstructions of the dark-energy equation of state and the inflationary potential

Cited by 47 publications

References 61 publications

Dynamically Generated Inflationary ΛCDM

Dynamically Generated Inflationary ΛCDM

Noether symmetries as a geometric criterion to select theories of gravity

Dynamically Generated Inflationary Lambda-CDM

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