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Paper detail

Non-adiabatic perturbations in decaying vacuum cosmology

We investigate a spatially flat Friedmann-Lemaître-Robertson-Walker cosmology in which a decaying vacuum term causes matter production at late times. Assuming a decay proportional to the Hubble rate, the ratio of the background energy densities of dark matter and dark energy changes with the cosmic scale factor as $a^{-3/2}$. The intrinsically non-adiabatic two-component perturbation dynamics of this model is reduced to a single second-order equation. Perturbations of the vacuum term are shown to be negligible on scales that are relevant for structure formation. On larger scales, dark-energy perturbations give a somewhat higher contribution but remain always smaller than the dark-matter perturbations.

preprint2011arXivOpen access
W. ZimdahlH. A. BorgesS. CarneiroJ. C. FabrisW. S. Hipólito-Ricaldi
astro-ph.COgr-qchep-th
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W. ZimdahlH. A. BorgesS. CarneiroJ. C. FabrisW. S. Hipólito-Ricaldi

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