# Colour gradients in cluster ellipticals at z~1.4: the hidden content of   the galaxy central regions

**Authors:** Federica Ciocca, Paolo Saracco, Adriana Gargiulo, Roberto De, Propris

arXiv: 1701.02736 · 2017-01-24

## TL;DR

This study investigates colour gradients in elliptical galaxies at z~1.4, revealing complex stellar population variations and UV excess in their cores, challenging existing models of galaxy evolution.

## Contribution

It provides new insights into the stellar population gradients and UV emission mechanisms in high-redshift elliptical galaxy cores.

## Key findings

- 70% of galaxies have negative U-R colour gradients
- 80% show positive UV-U colour gradients
- UV excess suggests possible weak star formation or He-rich populations

## Abstract

We present F775W-F850LP (rest-frame UV-U) and F850LP-F160W (rest-frame U-R) colour gradients for a sample of 17 elliptical galaxies morphologically selected in the cluster XMMU J2235.3-2557 at $z$=1.39. We detected significant negative (redder inwards) U-R colour gradients in $\sim$70 per cent of the galaxies and flat gradients for the remaining ones. On the other hand, the UV-U gradients are significant positive (bluer inwards) for $\sim$80 per cent of the galaxies and flat for the remaining ones. Using stellar population synthesis models, we found that the behaviour of the two colour gradients cannot be simultaneously explained by a radial variation of age, metallicity and/or dust. The observed U-R gradients are consistent with a metallicity gradient (mean value $\nabla_{Z} =-0.4$) in agreement with the one observed in the local elliptical galaxies. The positive UV-U gradients cannot be explained with age or metallicity variations and imply an excess of UV emission towards the galaxies' central regions.This excess calls into question mechanisms able to efficiently produce UV emission. The data require either steady weak star formation (< 1 M$_\odot$ yr$^{-1}$) or an He-rich population in the cores of these galaxies in order to simultaneously reproduce both the colour gradients. On the contrary, the presence of a QSO cannot account for the observed UV excess on its own. We discuss these hypotheses on the basis of current observations and available models.

## Full text

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## Figures

90 figures with captions in the complete paper: https://tomesphere.com/paper/1701.02736/full.md

## References

97 references — full list in the complete paper: https://tomesphere.com/paper/1701.02736/full.md

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Source: https://tomesphere.com/paper/1701.02736