Viscous Unified Dark Matter Models Under Scrutiny: Uncovering Inconsistencies from Dynamical System Analysis

Viscous unified dark matter models aim to describe the dark sector of the Universe, as the dark matter fluid itself gives rise to an accelerated expansion due to a negative bulk viscous pressure. However, in most studies, radiation is often disregarded as a minor factor in dynamical system analyses, overlooking whether radiation domination is achievable. In this paper, we rigorously examine this critical aspect for common parametrizations of bulk viscosity, denoted as ζ, within two general classes of viscous unified models. Our findings reveal significant inconsistencies in models where ζ H1-2sρms with s≤0, and surprisingly, in models where ζ ρms with exponents s<0, as they both fail to produce a radiation-dominated era - an undesirable outcome for any cosmological model. Moreover, the exponent s must lye within the interval 0≤s<1/2 for the latter model to correctly describes the cosmological evolution. These results underscore the need of including these constraints as a prior in statistical analyses of observational data, with implications for current statistical inferences for the second model, where both prior and best-fit values of s often fall outside the acceptable range. © 2024 American Physical Society.