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Phase space analysis and singularity classification for linearly interacting dark energy models

Muhsin Aljaf, Daniele Gregoris, Martiros Khurshudyan

2020The European Physical Journal C36 citationsDOIOpen Access PDF

Abstract

Abstract In this paper, applying the Hartman–Grobman theorem we carry out a qualitative late-time analysis of some unified dark energy-matter Friedmann cosmological models, where the two interact through linear energy exchanges, and the dark energy fluid obeys to the dynamical equation of state of Redlich–Kwong, Modified Berthelot, and Dieterici respectively. The identification of appropriate late-time attractors allows to restrict the range of validity of the free parameters of the models under investigation. In particular, we prove that the late-time attractors which support a negative deceleration parameter correspond to a de Sitter universe. We show that the strength of deviation from an ideal fluid for the dark energy does not influence the stability of the late-time attractors, as well as the values of all the cosmological parameters at equilibrium, but for the Hubble function (which represents the age of the universe). Our analysis also shows that a singularity in the effective equation of state parameter for the dark energy fluid is not possible within this class of models.

Topics & Concepts

Dark energyPhysicsAttractorSingularityEquation of stateDeceleration parameterPhase spaceHubble's lawDe Sitter universeMathematical physicsScale factor (cosmology)Classical mechanicsPerfect fluidDe Sitter spaceFunction (biology)Range (aeronautics)Energy (signal processing)Stability (learning theory)Dynamical system (definition)CosmologyParameter spaceMeasure (data warehouse)Class (philosophy)Statistical physicsDynamical systems theorySpace (punctuation)Type (biology)Theoretical physicsSimple (philosophy)Cosmology and Gravitation TheoriesPulsars and Gravitational Waves ResearchStatistical Mechanics and Entropy
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