# Extremely metal-poor galaxies with HST/COS: laboratories for models of   low-metallicity massive stars and high-redshift galaxies

**Authors:** Peter Senchyna, Daniel P. Stark, Jacopo Chevallard, St\'ephane, Charlot, Tucker Jones, Alba Vidal Garc\'ia

arXiv: 1904.01615 · 2019-08-28

## TL;DR

This study uses HST/COS ultraviolet spectra of six extremely metal-poor nearby galaxies to better understand low-metallicity massive stars and improve models of high-redshift galaxy spectra, especially regarding C IV emission.

## Contribution

It provides new UV spectral data of local extremely metal-poor galaxies and analyzes their stellar winds, offering insights into low-metallicity stellar populations relevant for high-redshift galaxy studies.

## Key findings

- Nebular C IV emission is common in low-metallicity, high star formation rate galaxies.
- Equivalent widths of C IV are smaller than in z>6 lensed systems.
- Local samples may lack high alpha/Fe ratios, affecting comparisons.

## Abstract

Ultraviolet (UV) observations of local star-forming galaxies have begun to establish an empirical baseline for interpreting the rest-UV spectra of reionization-era galaxies. However, existing high-ionization emission line measurements at $z>6$ ($\mathrm{W_{C IV, 0}} \gtrsim 20$ {\AA}) are uniformly stronger than observed locally ($\mathrm{W_{C IV, 0}} \lesssim 2$ {\AA}), likely due to the relatively high metallicities ($Z/Z_\odot > 0.1$) typically probed by UV surveys of nearby galaxies. We present new HST/COS spectra of six nearby ($z<0.01$) extremely metal-poor galaxies (XMPs, $Z/Z_\odot \lesssim 0.1$) targeted to address this limitation and provide constraints on the highly-uncertain ionizing spectra powered by low-metallicity massive stars. Our data reveal a range of spectral features, including one of the most prominent nebular C IV doublets yet observed in local star-forming systems and strong He II emission. Using all published UV observations of local XMPs to-date, we find that nebular C IV emission is ubiquitous in very high specific star formation rate systems at low metallicity, but still find equivalent widths smaller than those measured in individual lensed systems at $z>6$. Our moderate-resolution HST/COS data allow us to conduct an analysis of the stellar winds in a local nebular C IV emitter, which suggests that some of the tension with $z>6$ data may be due to existing local samples not yet probing sufficiently high $\mathrm{\alpha/Fe}$ abundance ratios. Our results indicate that C IV emission can play a crucial role in the JWST and ELT era by acting as an accessible signpost of very low metallicity ($Z/Z_\odot < 0.1$) massive stars in assembling reionization-era systems.

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/1904.01615/full.md

## References

104 references — full list in the complete paper: https://tomesphere.com/paper/1904.01615/full.md

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Source: https://tomesphere.com/paper/1904.01615