# Constraints on the interacting vacuum -- geodesic CDM scenario

**Authors:** Matteo Martinelli, Natalie B. Hogg, Simone Peirone, Marco Bruni and, David Wands

arXiv: 1902.10694 · 2019-08-14

## TL;DR

This paper explores an interacting dark energy and cold dark matter model, constraining the interaction strength using various cosmological data, and finds no significant deviation from the standard Lambda-CDM model.

## Contribution

It introduces a comprehensive linear perturbation theory for the interacting vacuum scenario and employs MCMC analysis across multiple transition models to constrain the interaction parameter.

## Key findings

- No significant evidence for interaction from data
- Models with standard Lambda-CDM evolution are compatible with observations
- The interaction parameter q_V is consistent with zero in all tested cases

## Abstract

We investigate an interacting dark sector scenario in which the vacuum energy is free to interact with cold dark matter (CDM), which itself is assumed to cluster under the sole action of gravity, i.e. it is in free fall (geodesic), as in $\Lambda$CDM. The interaction is characterised by a dimensionless coupling $q_{\rm V}$ that we constrain using cosmic microwave background data from the Planck 2015 data release, along with baryon acoustic oscillation, redshift space distortion and Type Ia supernova measurements. We present the full linear perturbation theory of this interacting scenario and use MCMC sampling to study five different cases: two cases in which we have $\Lambda$CDM evolution in the distant past, until a set redshift $z_{\rm trans}$, below which the interaction switches on and $q_{\rm V}$ is the single sampled parameter, with $z_{\rm trans}$ fixed at $z_{\rm trans}=3000$ and $z_{\rm trans}=0.9$ respectively; a case where we allow this transition redshift to vary along with $q_{\rm V}$; a case in which the vacuum energy is zero for $z>z_{\rm trans}$ and then begins to grow once the interaction switches on; and the final case in which we bin $q_{\rm V}(z)$ in four redshift bins to investigate the possibility of a dynamical interaction, reconstructing the redshift evolution of the function using Gaussian processes. We find that, in all cases where the high redshift evolution is not modified, the results are compatible with a vanishing coupling, thus finding no significant deviation from $\Lambda$CDM.

## Full text

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## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/1902.10694/full.md

## References

80 references — full list in the complete paper: https://tomesphere.com/paper/1902.10694/full.md

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Source: https://tomesphere.com/paper/1902.10694