# ZOMG II: Does the halo assembly history influence central galaxies and   gas accretion?

**Authors:** Emilio Romano-Diaz, Enrico Garaldi, Mikolaj Borzyszkowski, Cristiano, Porciani (Argelander-Institut f\"ur Astronomie, Bonn, Germany)

arXiv: 1701.02743 · 2017-06-21

## TL;DR

This study uses hydrodynamical simulations to explore how the cosmic web environment influences the growth, gas accretion, and structural properties of central galaxies within dark matter haloes, revealing environment-dependent galaxy evolution features.

## Contribution

It demonstrates the impact of halo assembly history on galaxy properties, highlighting differences in stellar populations and disc thickness between accreting and stalled haloes.

## Key findings

- Stalled haloes host older stellar populations in their central galaxies.
- Galaxies in stalled haloes have thicker, more heated discs.
- Gas accretion rates differ between accreting and stalled haloes over time.

## Abstract

The growth-rate and the internal dynamics of galaxy-sized dark-matter haloes depend on their location within the cosmic web. Haloes that sit at the nodes grow in mass till the present time and are dominated by radial orbits. Conversely, haloes embedded in prominent filaments do not change much in size and are dominated by tangential orbits. Using zoom hydrodynamical simulations including star formation and feedback, we study how gas accretes onto these different classes of objects that, for simplicity, we dub 'accreting' and 'stalled' haloes. We find that all haloes get a fresh supply of newly accreted gas in their inner regions, although this slowly decreases with time, in particular for the stalled haloes. The inflow of new gas is always higher than (but comparable with) that of recycled material. Overall, the cold-gas fraction increases (decreases) with time for the accreting (stalled) haloes. In all cases, a stellar disc and a bulge form at the centre of the simulated haloes. The total stellar mass is in excellent agreement with expectations based on the abundance-matching technique. Many properties of the central galaxies do not seem to correlate with the large-scale environment in which the haloes reside. However, there are two notable exceptions that characterise stalled haloes with respect to their accreting counterparts: i) the galaxy disc contains much older stellar populations; ii) its vertical scale-height is larger by a factor of two or more. This thickening is likely due to the heating of the long-lived discs by mergers and close flybys.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1701.02743/full.md

## Figures

29 figures with captions in the complete paper: https://tomesphere.com/paper/1701.02743/full.md

## References

106 references — full list in the complete paper: https://tomesphere.com/paper/1701.02743/full.md

---
Source: https://tomesphere.com/paper/1701.02743