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We analyze the interaction between dark energy and dark matter from a thermodynamical perspective. By assuming they have different temperatures, we study the possibility of occurring a decay from dark matter into dark energy, characterized by a negative parameter Q. We find that, if at least one of the fluids has nonvanishing chemical potential, for instance ₗ0, the decay is possible, where ₗ and ₃₌ are the chemical potentials of dark energy and dark matter, respectively. Using recent cosmological data, we find that, for a fairly simple interaction, the dark matter decay is favored with a probability of 93% over the dark energy decay. This result comes from a likelihood analysis where only background evolution has been considered.
Pereira et al. (Thu,) studied this question.