Litcius/Paper detail

Updated constraints from the effective field theory analysis of the BOSS power spectrum on early dark energy

Théo Simon, Pierre Zhang, Vivian Poulin, Tristan L. Smith

2023Physical review. D/Physical review. D.70 citationsDOIOpen Access PDF

Abstract

Analyses of the full shape of the Baryon Oscillation Spectroscopic Survey (BOSS) DR12 power spectrum using the one-loop prediction from the effective field theory of large-scale structures (EFTBOSS) have led to new constraints on extensions to the $\mathrm{\ensuremath{\Lambda}}$ cold dark matter model, such as early dark energy (EDE), which has been suggested as a resolution to the ``Hubble tension.'' In this paper, we reassess the constraining power of the EFTBOSS on EDE in light of a correction to the normalization of BOSS window functions. Overall we find that constraints from EFTBOSS on EDE are weakened and represent a small change compared to constraints from Planck and the conventional baryon acoustic $\mathrm{oscillation}/f{\ensuremath{\sigma}}_{8}$ measurements. The combination of Planck data with EFTBOSS provides a bound on the maximal fractional contribution of EDE ${f}_{\mathrm{EDE}}<0.083$ at 95% C.L. (compared to $<0.054$ with the incorrect normalization and $<0.088$ without full-shape data) and the Hubble tension is reduced to $2.1\ensuremath{\sigma}$. However, the more extreme model favored by an analysis with just data from the Atacama Cosmology Telescope is disfavored by the EFTBOSS data. We also show that the updated $\mathrm{Pantheon}+\text{type}$ Ia supernova (SN1a) analysis can slightly increase the constraints on EDE. Yet, the inclusion of the SN1a magnitude calibration by SH0ES strongly increases the preference for EDE to above $5\ensuremath{\sigma}$, yielding ${f}_{\mathrm{EDE}}\ensuremath{\sim}{0.12}_{\ensuremath{-}0.02}^{+0.03}$ around the redshift ${z}_{c}={4365}_{\ensuremath{-}1100}^{+3000}$. Our results demonstrate that EFTBOSS data (alone or combined with Planck data) do not exclude the EDE resolution of the Hubble tension.

Topics & Concepts

PhysicsDark energyHubble's lawPlanckNormalization (sociology)BossRedshiftCosmologySpectral densityLambdaSigmaEffective field theoryAstrophysicsTheoretical physicsParticle physicsAstronomyQuantum mechanicsStatisticsGalaxyMathematicsMaterials scienceSociologyAnthropologyMetallurgyCosmology and Gravitation TheoriesGalaxies: Formation, Evolution, PhenomenaDark Matter and Cosmic Phenomena