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- Title
Equation of state for the Universe from similarity symmetries.
- Authors
Marek Szydłowski; Włodzimierz Godłowski; Radosław Wojtak
- Abstract
In this paper we proposed to use the group of analysis of symmetries of the dynamical system to describe the evolution of the Universe. This method is used in searching for the unknown equation of state. It is shown that group of symmetries enforce the form of the equation of state for noninteracting scaling multifluids. We showed that symmetries give rise to the equation of state in the form p =-Λ + w1ρ(a) + w2aβ + 0 and energy density ρ = Λ+ρ01a-3(1+w) +ρ02aα +ρ03a-3, which is commonly used in cosmology. The FRW model filled with scaling fluid (called homological) is confronted with the observations of distant type Ia supernovae. We found the class of model parameters admissible by the statistical analysis of SNIa data.We showed that the model with scaling fluid fits well to supernovae data. We found that Ωm,0 ≃ 0.4 and n ≃ -1 (β = -3n), which can correspond to (hyper) phantom fluid, and to a high density universe. However if we assume prior that Ωm,0 = 0.3 then the favoured model is close to concordance ΛCDM model. Our results predict that in the considered model with scaling fluids distant type Ia supernovae should be brighter than in the ΛCDM model, while intermediate distant SNIa should be fainter than in the ΛCDM model. We also investigate whether the model with scaling fluid is actually preferred by data over ΛCDM model. As a result we find from the Akaike model selection criterion: it prefers the model with noninteracting scaling fluid.
- Publication
General Relativity & Gravitation, 2006, Vol 38, Issue 5, p795
- ISSN
0001-7701
- Publication type
Article
- DOI
10.1007/s10714-006-0265-6