# Conformally Coupled Tachyonic Dark Energy

**Authors:** Elsa M. Teixeira, Ana Nunes, Nelson J. Nunes

arXiv: 1903.06028 · 2019-09-06

## TL;DR

This paper explores a conformally coupled tachyonic dark energy model, revealing new stable scaling solutions that can explain late-time cosmic acceleration and address the coincidence problem.

## Contribution

It introduces a novel conformally coupled tachyonic dark energy model with multiple stable solutions, including a scaling attractor, expanding the understanding of dark energy dynamics.

## Key findings

- Discovery of a new stable scaling fixed point.
- The model can produce late-time acceleration with b5_{\,	ext{total}} \, ightarrow 0.
- A viable cosmological evolution requires an uncoupled matter component.

## Abstract

We present and study a conformally coupled dark energy model, characterised by an interaction between a tachyon field $\phi$, with an inverse square potential $V (\phi)$, and the matter sector. A detailed analysis of the cosmological outcome reveals different possibilities, in contrast with the previously studied uncoupled model, for which there exists only one stable critical point that gives late-time acceleration of the Universe. The introduction of the coupling translates into an energy exchange between the fluids. We find the interesting possibility of the emergence of a new fixed point, which is a scaling solution and an attractor of the system. In this case, it is possible to describe an everlasting Universe with $\Omega_{\phi} \simeq 0.7$, therefore alleviating the cosmic coincidence problem. However, we find that, in order for the evolution to be cosmologically viable, there is the need to introduce one uncoupled matter species, dominant at early times.

## Full text

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## Figures

27 figures with captions in the complete paper: https://tomesphere.com/paper/1903.06028/full.md

## References

91 references — full list in the complete paper: https://tomesphere.com/paper/1903.06028/full.md

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Source: https://tomesphere.com/paper/1903.06028