Spatial Ricci scalar dark energy model

Inspired by holographic principle, we suggest that the density of dark energy is proportional to the spatial Ricci scalar curvature (SRDE). Such model is phenomenologically viable. The best fit values of its parameters at 68% confidence level are found to be: \(\Omega_{\rm m0}=0.259\pm0.016\) and \(...

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Bibliographic Details
Published in:arXiv.org 2014-05
Main Authors: Rong-Jia, Yang, Zong-Hong, Zhu, Wu, Fengquan
Format: Article
Language:English
Subjects:
Acceleration
Anisotropy
Big Bang theory
Confidence intervals
Cosmic microwave background
Cosmic microwave background temperature
Curvature
Dark energy
Deceleration
Equations of state
Mathematical models
Parameters
Phase transitions
Power spectra
Red shift
Universe
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Summary:Inspired by holographic principle, we suggest that the density of dark energy is proportional to the spatial Ricci scalar curvature (SRDE). Such model is phenomenologically viable. The best fit values of its parameters at 68% confidence level are found to be: \(\Omega_{\rm m0}=0.259\pm0.016\) and \(\alpha=0.261\pm0.0122\), constrained from the Union+CFA3 sample of 397 SNIa and the BAO measurement. We find the equation of state of SRDE crosses -1 at \(z\simeq-0.14\). The present values of the deceleration parameter \(q(z)\) for SRDE is found to be \(q_{z=0}\sim -0.85\). The phase transition from deceleration to acceleration of the Universe for SRDE occurs at the redshift \(z_{q=0}\sim 0.4\). After studying on the perturbation of each component of the Universe, we show that the matter power spectra and cosmic microwave background temperature anisotropy is slightly affected by SRDE, compared with \(\Lambda\)CDM.
ISSN:2331-8422
DOI:10.48550/arxiv.1101.4797