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Geometric interpretation of the dark energy from projected hyperconical universes

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Monjo, Robert (2018) Geometric interpretation of the dark energy from projected hyperconical universes. Physical Review D, 98 (4). ISSN 2470-0010

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Official URL: https://doi.org/10.1103/PhysRevD.98.043508




Abstract

This paper explores the derivation of dark energy from a locally conformal projection of hyperconical universes. It focuses on the analysis of theoretical compatibility between the intrinsic view of the standard cosmology and an adequate transformation of hyperconical manifolds. Choosing some parametric family of locally conformal transformations and taking regional (second order) equality between the Hubble parameter of both theories, it is predicted that the dark energy density is ΩΛ =0.6937181 (2). In particular, we used a radially distorted stereographic projection, the distortion parameter of which is theoretically predicted about α =0.325+-0.005 and empirically fitted as α=0.36+-0.02 (χ20 =562) according to 580 SNe Ia observations.


Item Type:Article
Additional Information:

Monjo, R. (2018). Geometric interpretation of the dark energy from projected hyperconical universes. Physical Review D, 98(4), 043508.

Uncontrolled Keywords:Cosmological constant; Dark energy; Dark matter; Evolution of the Universe; Relativistic aspects of cosmology
Subjects:Sciences > Physics > Astrophysics
Sciences > Physics > Astronomy
Sciences > Mathematics > Geometry
ID Code:64011
Deposited On:17 Feb 2021 14:27
Last Modified:17 Feb 2021 16:33

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