期刊
PHYSICS OF THE DARK UNIVERSE
卷 14, 期 -, 页码 11-20出版社
ELSEVIER
DOI: 10.1016/j.dark.2016.08.001
关键词
Cosmological perturbations for the late universe; Point-like particle; Mechanical approach; Dark matter and dark energy interaction
资金
- Portuguese Agency Fundacao para a Ciencia e Tecnologia [IF/01442/2013/CP1196/CT0001]
- Basque government (Spain) [IT592-13]
- FONDOS FEDER (Spanish government) [FIS2014-57956-P]
- UPV/EHU
- [UID/MAT/00212/2013]
We study the Universe at the late stage of its evolution and deep inside the cell of uniformity. At such a scale the Universe is highly inhomogeneous and filled with discretely distributed inhomogeneities in the form of galaxies and groups of galaxies. As a matter source, we consider dark matter (DM) and dark energy (DE) with a non-linear interaction Q = 3H gamma<(epsilon)overbar>(DE)(epsilon) over bar (DM)/((epsilon) over bar (DE) + (epsilon) over bar (DM)), where gamma is a constant. We assume that DM is pressureless and DE has a constant equation of state parameter w. In the considered model, the energy densities of the dark sector components present a scaling behaviour with (epsilon) over bar (DM)/(epsilon) over bar (DE) similar to (a(0)/a)(-3(w+gamma)). We investigate the possibility that the perturbations of DM and DE, which are interacting among themselves, could be coupled to the galaxies with the former being concentrated around them. To carry our analysis, we consider the theory of scalar perturbations (within the mechanical approach), and obtain the sets of parameters (w,gamma) which do not contradict it. We conclude that two sets: (w = -2/3, gamma = 1/3) and (w = -1, gamma = 1/3) are of special interest. First, the energy densities of DM and DE on these cases are concentrated around galaxies confirming that they are coupled fluids. Second, we show that for both of them, the coincidence problem is less severe than in the standard Lambda CDM. Third, the set (w = -1, gamma = 1/3) is within the observational constraints. Finally, we also obtain an expression for the gravitational potential in the considered model. (C) 2016 Elsevier B.V.All rights reserved.
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