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Looking for interactions in the cosmological dark sector

Micol BenettiDepartamento de Astronomia, Observatório Nacional, Rua General José Cristino 77, 20921-400 Rio de Janeiro, RJ, BrasilW. MirandaInstituto Federal da Bahia, Av. Marcondes Ferraz 200, 48607-000 Paulo Afonso, BA, BrasilH. A. BorgesInstituto de Física, Universidade Federal da Bahia, Rua Barão de Jeremoabo s/n, Campus de Ondina, 40210-340 Salvador, BA, BrasilC. PigozzoInstituto de Física, Universidade Federal da Bahia, Rua Barão de Jeremoabo s/n, Campus de Ondina, 40210-340 Salvador, BA, BrasilS. CarneiroInstituto de Física, Universidade Federal da Bahia, Rua Barão de Jeremoabo s/n, Campus de Ondina, 40210-340 Salvador, BA, BrasilJ. S. AlcanizDepartamento de Astronomia, Observatório Nacional, Rua General José Cristino 77, 20921-400 Rio de Janeiro, RJ, Brasil
2019en
ABI

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We study observational signatures of non-gravitational interactions between the dark components of the cosmic fluid, which can be either due to creation of dark particles from the expanding vacuum or an effect of the clustering of a dynamical dark energy. In particular, we analyse a class of interacting models ($\Lambda$(t)CDM), characterised by the parameter $\alpha$, that behaves at background level like cold matter at early times and tends to a cosmological constant in the asymptotic future. In our analysis we consider both background and primordial perturbations evolutions of the model. We use Cosmic Microwave Background (CMB) data together with late time observations, such as the Joint Light-curve Analysis (JLA) supernovae data, the Hubble Space Telescope (HST) measurement of the local value of the Hubble-Lema\^itre parameter, and primordial deuterium abundance from Ly$\alpha$ systems to test the observational viability of the model and some of its extensions. We found that there is no preference for values of $\alpha$ different from zero (characterising interaction), even if there are some indications for positive values when the minimal $\Lambda$(t)CDM model is analysed. When extra degrees of freedom in the relativistic component of the cosmic fluid are considered, the data favour negative values of $\alpha$, which means an energy flux from dark energy to dark matter.

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