http://arxiv.org/abs/2203.08762
The current epoch of accelerated cosmic expansion is postulated to be driven by dark energy, which in the standard model takes the form of a cosmological constant with equation of state parameter $w=-1$. We propose an innovative perspective over the nature of dark energy by drawing a parallel with inflation, which we assume to be driven by a single scalar field, the inflaton. The inflaton was not a cosmological constant, as indicated by the fact that inflation ended and by the Planck satellite’s constraint of $n_s\neq 1$ at $8\sigma$ confidence. Therefore, it is interesting to verify whether its equation of state parameter was measurably different from $-1$. We analyze this question for a class of single-field slow-roll inflationary models, where the hierarchy of Hubble slow-roll parameters is truncated at different orders. Based on the latest Planck and BICEP2/Keck data, we obtain a $68\%$ upper bound of $1+w < 0.0014$ for the three-parameter model, which gives the best description to the data. This provides a cautionary tale for drawing conclusions about the nature of today’s dark energy based upon the non-detection of a deviation from $w=-1$ with current and upcoming cosmological surveys.
S. Castello, S. Ilić and M. Kunz
Thu, 17 Mar 22
14/66
Comments: Contribution to the 2022 Cosmology session of the 56th Rencontres de Moriond
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