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Coupled dark matter-dark energy in light of near universe observations

Laura Lopez HonorezPhysics Department and Instituto de Fisica Teorica UAM/CSIC, 28049 Cantoblanco, Madrid, SpainBeth A ReidInstitute for Sciences of the Cosmos (ICC), University of Barcelona and IEEC, Barcelona 08028, SpainOlga MenaInstituto de Fisica Corpuscular, IFIC, Universidad de Valencia-CSIC, Edificio de Institutos de Paterna, Apt. 22085, 46071 Valencia, SpainLicia VerdeICREA (Institucio Catalana de Recerca i Estudis Avançats)Raul JimenezICREA (Institucio Catalana de Recerca i Estudis Avançats)
2010en
ABI

Annotatsiya

Cosmological analysis based on currently available observations are unable to rule out a sizeable coupling among the dark energy and dark matter fluids. We explore a variety of coupled dark matter-dark energy models, which satisfy cosmic microwave background constraints, in light of low redshift and near universe observations. We illustrate the phenomenology of different classes of dark coupling models, paying particular attention in distinguishing between effects that appear only on the expansion history and those that appear in the growth of structure. We find that while a broad class of dark coupling models are effectively models where general relativity (GR) is modified --and thus can be probed by a combination of tests for the expansion history and the growth of structure--, there is a class of dark coupling models where gravity is still GR, but the growth of perturbations is, in principle modified. While this effect is small in the specific models we have considered, one should bear in mind that an inconsistency between reconstructed expansion history and growth may not uniquely indicate deviations from GR. Our low redshift constraints arise from cosmic velocities, redshift space distortions and dark matter abundance in galaxy voids. We find that current data constrain the dimensionless coupling to be |xi|<0.2, but prospects from forthcoming data are for a significant improvement. Future, precise measurements of the Hubble constant, combined with high-precision constraints on the growth of structure, could provide the key to rule out dark coupling models which survive other tests. We shall exploit as well weak equivalence principle violation arguments, which have the potential to highly disfavour a broad family of coupled models.

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