# Does Quartessence Ease Tensions?

**Authors:** Stefano Camera, Matteo Martinelli, Daniele Bertacca

arXiv: 1704.06277 · 2019-02-19

## TL;DR

This paper tests quartessence models, which unify dark matter and dark energy, against recent cosmological data to see if they can resolve tensions in structure growth measurements, highlighting the importance of nonlinear scale analysis.

## Contribution

First application of quartessence models to actual observational data, exploring their potential to reconcile cosmological tensions and emphasizing the need for nonlinear behavior understanding.

## Key findings

- Quartessence can alleviate tension in structure growth data.
- Tension transfer from structure clustering to sound speed parameter.
- Viability of quartessence depends on nonlinear scale treatment.

## Abstract

Tensions between cosmic microwave background observations and the growth of the large-scale structure inferred from late-time probes pose a serious challenge to the concordance $\Lambda$CDM cosmological model. State-of-the-art data from the Planck satellite predicts a higher rate of structure growth than what preferred by low-redshift observables. Such tension has hitherto eluded conclusive explanations in terms of straightforward modifications to $\Lambda$CDM, e.g. the inclusion of massive neutrinos or a dynamical dark energy component. Here, we investigate models of 'quartessence' -- a single dark component mimicking both dark matter and dark energy -- whose non-vanishing sound speed inhibits structure growth at late times on scales smaller than its corresponding Jeans' length. In principle, this could reconcile high- and low-redshift observations. We put this hypothesis to test against temperature and polarisation spectra from the latest Planck release, SDSS DR12 measurements of baryon acoustic oscillations and redshift-space distortions, and cosmic shear correlation functions from KiDS. This the first time that any specific model of quartessence is applied to actual data. We show that, if we naively apply $\Lambda$CDM nonlinear prescription to quartessence, the combined data sets allow for tight constraints on the model parameters. Apparently, quartessence alleviates the tension between the total matter fraction and late-time structure clustering, although in fact the tension is transferred from the latter to the quartessence sound speed parameter. However, we found that this strongly depends upon information from nonlinear scales. Indeed, if we relax this assumption, quartessence models appear still viable. For this reason, we argue that the nonlinear behaviour of quartessence deserves further investigation and may lead to a deeper understanding of the physics of the dark Universe.

## Full text

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## Figures

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## References

56 references — full list in the complete paper: https://tomesphere.com/paper/1704.06277/full.md

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Source: https://tomesphere.com/paper/1704.06277