# Multi-phase Circum-Galactic Medium probed with MUSE and ALMA

**Authors:** Celine Peroux (1), Martin Zwaan (2), Anne Klitsch (2,3), Ramona, Augustin (1,2), Aleksandra Hamanowicz (2), Hadi Rahmani (1,4), Max Pettini, (5), Varsha Kulkarni (6), Lorrie Straka (7), Andy Biggs (2), Donald York (8),, Bruno Milliard (1) ((1) Laboratoire d'Astrophysique de Marseille, France (2), European Southern Observatory, Germany (3) Durham University, UK (4) GEPI,, Observatoire de Paris, France (5) IoA, Cambridge, UK (6) University of South, Carolina, USA (7) Leiden University, the Netherlands (8) University of, Chicago, USA)

arXiv: 1901.05217 · 2019-01-30

## TL;DR

This study combines optical and millimeter observations with simulations to explore the complex relationship between the circumgalactic medium and nearby galaxies, revealing that HI absorption traces a larger, more intricate structure than previously thought.

## Contribution

It provides new observational evidence and simulation-based insights into the complex, multi-galaxy environment of the circumgalactic medium around a quasar absorber.

## Key findings

- Multiple galaxies are associated with the absorber, including a new emitter closer to the line-of-sight.
- ALMA detects molecular gas in some galaxies, indicating long depletion timescales.
- The neutral gas in absorption is partly related to these galaxies, but much is from fainter, diffuse structures.

## Abstract

Galaxy halos appear to be missing a large fraction of their baryons, most probably hiding in the circumgalactic medium (CGM), a diffuse component within the dark matter halo that extends far from the inner regions of the galaxies. A powerful tool to study the CGM gas is offered by absorption lines in the spectra of background quasars. Here, we present optical (MUSE) and mm (ALMA) observations of the field of the quasar Q1130-1449 which includes a log [N(H I)/cm^-2]=21.71+/-0.07 absorber at z=0.313. Ground-based VLT/MUSE 3D spectroscopy shows 11 galaxies at the redshift of the absorber down to a limiting SFR>0.01 M_sun yr^-1 (covering emission lines of [OII], Hbeta, [OIII], [NII] and Halpha), 7 of which are new discoveries. In particular, we report a new emitter with a smaller impact parameter to the quasar line-of-sight (b=10.6 kpc) than the galaxies detected so far. Three of the objects are also detected in CO(1-0) in our ALMA observations indicating long depletion timescales for the molecular gas and kinematics consistent with the ionised gas. We infer from dedicated numerical cosmological RAMSES zoom-in simulations that the physical properties of these objects qualitatively resemble a small group environment, possibly part of a filamentary structure. Based on metallicity and velocity arguments, we conclude that the neutral gas traced in absorption is only partly related to these emitting galaxies while a larger fraction is likely the signature of gas with surface brightness almost four orders of magnitude fainter that current detection limits. Together, these findings challenge a picture where strong-HI quasar absorbers are associated with a single bright galaxy and favour a scenario where the HI gas probed in absorption is related to far more complex galaxy structures.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1901.05217/full.md

## Figures

58 figures with captions in the complete paper: https://tomesphere.com/paper/1901.05217/full.md

## References

100 references — full list in the complete paper: https://tomesphere.com/paper/1901.05217/full.md

---
Source: https://tomesphere.com/paper/1901.05217