Cosmological models in scale-independent energy-momentum squared gravity

Scale-independent EMSG is a particular model of energy–momentum squared gravity (EMSG) in which the new terms in the Einstein field equations arising from the EMSG theory enter with the same power as the usual terms from Einstein–Hilbert part of the action. However, the model violates the local ener...

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Bibliographic Details
Published inPHYSICS OF THE DARK UNIVERSE Vol. 40; p. 101194
Main Authors Akarsu, Özgür, Uzun, N. Merve
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2023
Subjects
Accelerated expansion of the universe
Anisotropic expansion
Big Rip
Cosmological models
De Sitter universe
Energy-momentum squared gravity
Initial singularity
Quiescent universe
Static universe
Steady state universe
Initial singularity
Accelerated expansion of the universe
Steady state universe
Quiescent universe
Big Rip
Anisotropic expansion
De Sitter universe
Static universe
Energy-momentum squared gravity
Cosmological models
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Summary:Scale-independent EMSG is a particular model of energy–momentum squared gravity (EMSG) in which the new terms in the Einstein field equations arising from the EMSG theory enter with the same power as the usual terms from Einstein–Hilbert part of the action. However, the model violates the local energy–momentum conservation and matter-current conservation in general and hence, permits a process of matter creation/annihilation in an expanding universe. Consequently, the scale factor dependencies of the energy densities are modified by the dimensionless model parameter α. We revisit some nostalgias such as static universes and de Sitter/steady state universes. We reproduce the original ones, moreover, present some novelties, e.g., a spatially flat static universe, de Sitter expansion by negative vacuum energy, steady state universes in the presence of arbitrary fluids with constant equation of state (EoS) parameter other than dust, etc. We also investigate the possible dynamics of dust dominated and radiation dominated universes. Depending on the value of α, dust/radiation dominated universe exhibits power-law accelerated/decelerated expansion, corresponds to a steady state model or may end in a big rip. In the framework of anisotropic cosmology, we reproduce Barrow’s quiescent universe in the presence of stiff fluid and extend it to fluids with arbitrary constant EoS parameter. We also relax the condition for isotropic initial singularity (big bang) owing to that EMSG effectively allows ultra-stiff EoS parameters.
ISSN:2212-6864
2212-6864
DOI:10.1016/j.dark.2023.101194