Dark viscous fluid described by a unified equation of state in cosmology

Abstract

We generalize the model by introducing a unified EOS to describe the Universe contents modeled as dark viscous fluid, motivated by the fact that a single constant equation of state (EOS) p=-p0 (p0>0) reproduces the model exactly. This EOS describes the perfect fluid term, the dissipative effect, and the cosmological constant in a unique framework and the Friedmann equations can be analytically solved. Especially, we find a relation between the EOS parameter and the renormalizable condition of a scalar field. We develop a completely numerical method to perform a 2 minimization to constrain the parameters in a cosmological model directly from the Friedmann equations, and employ the SNe data with the parameter A measured from the SDSS data to constrain our model. The result indicates that the dissipative effect is rather small in the late-time Universe.

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