# Modelling gas around galaxy pairs and groups using the Q0107 quasar   triplet

**Authors:** Alexander Beckett, Simon L. Morris, Michele Fumagalli, Nicolas Tejos,, Buell Jannuzi, Sebastiano Cantalupo

arXiv: 2302.11609 · 2023-03-08

## TL;DR

This study investigates how well simple disk and outflow models can explain the distribution of neutral hydrogen gas around galaxy groups, using quasar triplet spectra and galaxy surveys, revealing most gas aligns with galaxy CGMs but some remains unexplained.

## Contribution

It is the first to compare disk and outflow models against H I absorption in galaxy groups using multiple sightlines and deep surveys, extending previous work on isolated galaxies.

## Key findings

- Models reproduce about 75% of absorption components near groups.
- Most H I gas is consistent with superposition of individual galaxy CGMs.
- Higher H I column densities and more O VI detections are observed around groups.

## Abstract

We examine to what extent disk and outflow models can reproduce observations of H I gas within a few virial radii of galaxies in pairs and groups. Using highly-sensitive HST/COS and FOS spectra of the Q0107 quasar triplet covering Ly$\alpha$ for z$\lesssim$1, as well as a deep galaxy redshift survey including VIMOS, DEIMOS, GMOS and MUSE data, we test simple disk and outflow models against the H I absorption along three lines-of-sight (separated by 200-500 kpc) through nine galaxy groups in this field. These can be compared with our previous results in which these models can often be fit to the absorption around isolated galaxies. Our models can reproduce $\approx$ 75$\%$ of the 28 identified absorption components within 500 km/s of a group galaxy, so most of the H I around groups is consistent with a superposition of the CGM of the individual galaxies. Gas stripped in interactions between galaxies may be a plausible explanation for some of the remaining absorption, but neither the galaxy images nor the galaxy and absorber kinematics provide clear evidence of such stripped material, and these unexplained absorbers do not preferentially occur around close pairs of galaxies. We find H I column densities typically higher than at similar impact parameters around isolated galaxies ($\approx$ 2.5$\sigma$), as well as more frequent detections of O VI than around isolated galaxies (30$\%$ of sightlines to 7$\%$).

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/2302.11609/full.md

## References

136 references — full list in the complete paper: https://tomesphere.com/paper/2302.11609/full.md

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Source: https://tomesphere.com/paper/2302.11609