# Magnifying the early episodes of star formation: super star clusters at   cosmological distances

**Authors:** E. Vanzella, M. Castellano, M. Meneghetti, A. Mercurio, G. B. Caminha,, G. Cupani, F. Calura, L. Christensen, E. Merlin, P. Rosati, M. Gronke, M., Dijkstra, M. Mignoli, R. Gilli, S. De Barros, K. Caputi, C. Grillo, I., Balestra, S. Cristiani, M. Nonino, E. Giallongo, A. Grazian, L. Pentericci,, A. Fontana, A. Comastri, C. Vignali, G. Zamorani, M. Brusa, P. Bergamini, P., Tozzi

arXiv: 1703.02044 · 2017-06-28

## TL;DR

This study investigates highly magnified, young, low-metallicity stellar systems at z=3.2222, revealing unique spectrophotometric properties and the absence of expected Lya emission, which informs our understanding of early star formation and galaxy evolution.

## Contribution

First detailed spectroscopic analysis of low-luminosity, low-metallicity star clusters at high redshift, highlighting the absence of Lya emission despite strong UV metal lines.

## Key findings

- Detected hot, dense stellar clusters with low metallicity.
- Observed strong metal lines without accompanying Lya emission.
- Identified offset Lya emission possibly due to fluorescent processes.

## Abstract

We study the spectrophotometric properties of a highly magnified (\mu~40-70) pair of stellar systems identified at z=3.2222 behind the Hubble Frontier Field galaxy cluster MACS~J0416. Five multiple images (out of six) have been spectroscopically confirmed by means of VLT/MUSE and VLT/X-Shooter observations. Each image includes two faint (m_uv~30.6), young (<100 Myr), low-mass (<10^7 Msun), low-metallicity (12+Log(O/H)~7.7, or 1/10 solar) and compact (30 pc effective radius) stellar systems separated by ~300pc, after correcting for lensing amplification. We measured several rest-frame ultraviolet and optical narrow (\sigma_v <~ 25 km/s) high-ionization lines. These features may be the signature of very hot (T>50000 K) stars within dense stellar clusters, whose dynamical mass is likely dominated by the stellar component. Remarkably, the ultraviolet metal lines are not accompanied by Lya emission (e.g., CIV / Lya > 15), despite the fact that the Lya line flux is expected to be 150 times brighter (inferred from the Hbeta flux). A spatially-offset, strongly-magnified (\mu>50) Lya emission with a spatial extent <~7.6 kpc^2 is instead identified 2 kpc away from the system. The origin of such a faint emission can be the result of fluorescent Lya induced by a transverse leakage of ionizing radiation emerging from the stellar systems and/or can be associated to an underlying and barely detected object (with m_uv > 34 de-lensed). This is the first confirmed metal-line emitter at such low-luminosity and redshift without Lya emission, suggesting that, at least in some cases, a non-uniform covering factor of the neutral gas might hamper the Lya detection.

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/1703.02044/full.md

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Source: https://tomesphere.com/paper/1703.02044