S. E. Jorás scite author profile

Cosmological models involving an interaction between dark matter and dark energy have been proposed in order to solve the so-called coincidence problem. Different forms of coupling have been studied, but there have been claims that observational data seem to narrow (some of) them down to something annoyingly close to the ΛCDM model, thus greatly reducing their ability to deal with the problem in the first place. The smallness problem of the initial energy density of dark energy has also been a target of cosmological models in recent years. Making use of a moderately general coupling scheme, this paper aims to unite these different approaches and shed some light as to whether this class of models has any true perspective in suppressing the aforementioned issues that plague our current understanding of the universe, in a quantitative and unambiguous way. * Electronic address: mquartin@if.ufrj.br † Electronic address: orca@if.ufrj.br ‡ Electronic address: joras@if.ufrj.br § Electronic address: ribamar@if.ufrj.br ¶ Electronic address: ioav@if.ufrj.br

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Trans-Planckian physics and the spectrum of fluctuations in a bouncing universe

Brandenberger

2002

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In this paper, we calculate the spectrum of scalar field fluctuations in a bouncing, asymptotically flat universe, and investigate the dependence of the result on changes in the physics on length scales shorter than the Planck length which are introduced via modifications of the dispersion relation. In this model, there are no ambiguities concerning the choice of the initial vacuum state. We study an example in which the final spectrum of fluctuations depends sensitively on the modifications of the dispersion relation without needing to invoke complex frequencies. Changes in the amplitude and in the spectral index are possible, in addition to modulations of the spectrum. This strengthens the conclusions of previous work in which the spectrum of cosmological perturbations in expanding inflationary cosmologies was studied, and it was found that, for dispersion relations for which the evolution is not adiabatic, the predictions obtained for the spectrum of fluctuations are not robust towards changes in the dispersion relation.

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Entropy perturbations in quartessence Chaplygin models

et al. 2003

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et al. 2009

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S. E. Jorás

Dark interactions and cosmological fine-tuning

Trans-Planckian physics and the spectrum of fluctuations in a bouncing universe

Entropy perturbations in quartessence Chaplygin models

Mirandaet al.Reply:

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