# Deep into the structure of the first galaxies: SERRA views

**Authors:** A. Pallottini, A. Ferrara, D Decataldo, S. Gallerani, L. Vallini, S., Carniani, C. Behrens, M. Kohandel, S. Salvadori

arXiv: 1905.08254 · 2019-05-29

## TL;DR

This study uses high-resolution cosmological simulations to analyze the formation, structure, and emission properties of early galaxies during the Epoch of Reionization, revealing insights into their ISM, star formation, and emission line characteristics.

## Contribution

It provides detailed simulation-based insights into the ISM, star formation, and emission line properties of first galaxies, including the effects of starbursts and metallicity.

## Key findings

- Freesia has a stellar age of 409 Myr and a stellar mass of 4.2×10^9 M_sun.
- [OIII] emission is concentrated in star-forming regions, while [CII] is more extended.
- Freesia's ionising escape fraction is approximately 2%. 

## Abstract

We study the formation and evolution of a sample of Lyman Break Galaxies in the Epoch of Reionization by using high-resolution ($\sim 10 \,{\rm pc}$), cosmological zoom-in simulations part of the SERRA suite. In SERRA, we follow the interstellar medium (ISM) thermo-chemical non-equilibrium evolution, and perform on-the-fly radiative transfer of the interstellar radiation field (ISRF). The simulation outputs are post-processed to compute the emission of far infrared lines ([CII], [NII], and [OIII]). At $z=8$, the most massive galaxy, `Freesia', has an age $t_\star \simeq 409\,{\rm Myr}$, stellar mass $M_{\star} \simeq 4.2\times 10^9 {\rm M}_{\odot}$, and a star formation rate ${\rm SFR} \simeq 11.5\,{\rm M}_{\odot}{\rm yr}^{-1}$, due to a recent burst. Freesia has two stellar components (A and B) separated by $\simeq 2.5\, {\rm kpc}$; other 11 galaxies are found within $56.9 \pm 21.6 \, {\rm kpc}$. The mean ISRF in the Habing band is $G = 7.9\, G_0$ and is spatially uniform; in contrast, the ionisation parameter is $U = 2^{+20}_{-2} \times 10^{-3}$, and has a patchy distribution peaked at the location of star-forming sites. The resulting ionising escape fraction from Freesia is $f_{\rm esc}\simeq 2\%$. While [CII] emission is extended (radius 1.54 kpc), [OIII] is concentrated in Freesia-A (0.85 kpc), where the ratio $\Sigma_{\rm [OIII]}/\Sigma_{\rm [CII]} \simeq 10$. As many high-$z$ galaxies, Freesia lies below the local [CII]-SFR relation. We show that this is the general consequence of a starburst phase (pushing the galaxy above the Kennicutt-Schmidt relation) which disrupts/photodissociates the emitting molecular clouds around star-forming sites. Metallicity has a sub-dominant impact on the amplitude of [CII]-SFR deviations.

## Full text

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## Figures

45 figures with captions in the complete paper: https://tomesphere.com/paper/1905.08254/full.md

## References

174 references — full list in the complete paper: https://tomesphere.com/paper/1905.08254/full.md

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Source: https://tomesphere.com/paper/1905.08254