Direct reconstruction of dynamical dark energy from observational Hubble parameter data

Reconstructing the evolution history of the dark energy equation of state parameter w(z) directly from observational data is highly valuable in cosmology, since it contains substantial clues in understanding the nature of the accelerated expansion of the Universe. Many works have focused on reconstr...

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Bibliographic Details
Published inPHYSICS OF THE DARK UNIVERSE Vol. 14; pp. 21 - 28
Main Authors Liu, Zhi-E, Yu, Hao-Ran, Zhang, Tong-Jie, Tang, Yan-Ke
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2016
Subjects
Dark energy
Nonparametric model
Observational Hubble parameter data
Reconstruction
Reconstruction
Observational Hubble parameter data
Nonparametric model
Dark energy
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Summary:Reconstructing the evolution history of the dark energy equation of state parameter w(z) directly from observational data is highly valuable in cosmology, since it contains substantial clues in understanding the nature of the accelerated expansion of the Universe. Many works have focused on reconstructing w(z) using Type Ia supernova data, however, only a few studies pay attention to Hubble parameter data. In the present work, we explore the merit of Hubble parameter data and make an attempt to reconstruct w(z) from them through the principle component analysis approach. We find that current Hubble parameter data perform well in reconstructing w(z); though, when compared to supernova data, the data are scant and their quality is worse. Both ΛCDM and evolving w(z) models can be constrained within 10% at redshifts z≲1.5 and even 5% at redshifts 0.1≲z≲1 by using simulated H(z) data of observational quality.
ISSN:2212-6864
2212-6864
DOI:10.1016/j.dark.2016.08.003