Quintessence reconstruction of interacting HDE in a non-flat universe

In this paper we consider quintessence reconstruction of interacting holographic dark energy in a non-flat background. As system's IR cutoff we choose the radius of the event horizon measured on the sphere of the horizon, defined as \(L=ar(t)\). To this end we construct a quintessence model by...

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Bibliographic Details
Published in:arXiv.org 2014-03
Main Authors: Sheykhi, Ahmad, Alavirad, Hamzeh, Bagheri, Ali, Ebrahimi, Esmaeil
Format: Article
Language:English
Subjects:
Computer simulation
Cosmological constant
Dark energy
Equations of state
Event horizon
Expanding universe theory
Markov chains
Mathematical models
Quintessence (cosmology)
Reconstruction
Universe
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Summary:In this paper we consider quintessence reconstruction of interacting holographic dark energy in a non-flat background. As system's IR cutoff we choose the radius of the event horizon measured on the sphere of the horizon, defined as \(L=ar(t)\). To this end we construct a quintessence model by a real, single scalar field. Evolution of the potential, \(V(\phi)\), as well as the dynamics of the scalar field, \(\phi\), are obtained according to the respective holographic dark energy. The reconstructed potentials show a cosmological constant behavior for the present time. We constrain the model parameters in a flat universe by using the observational data, and applying the Monte Carlo Markov chain simulation. We obtain the best fit values of the holographic dark energy model and the interacting parameters as \(c=1.0576^{+0.3010+0.3052}_{-0.6632-0.6632}\) and \(\zeta=0.2433^{+0.6373+0.6373}_{-0.2251-0.2251}\), respectively. From the data fitting results we also find that the model can cross the phantom line in the present universe where the best fit value of of the dark energy equation of state is \(w_D=-1.2429\).
ISSN:2331-8422
DOI:10.48550/arxiv.1403.0196