The effect of cosmic web filaments on the properties of groups and their central galaxies

TL;DR

This study investigates how cosmic web filaments influence the properties of galaxy groups and their central galaxies, revealing that filaments significantly impact galaxy evolution beyond mere environmental density effects.

Contribution

It demonstrates that cosmic web filaments play a crucial role in shaping galaxy and group properties, highlighting differences in galaxy morphology, star formation, and luminosity in filamentary versus non-filamentary regions.

Findings

Groups in filaments are more massive and luminous in high-density environments.

Central galaxies in filaments tend to be redder, more massive, and less star-forming.

Filaments contribute to galaxy evolution by promoting morphological transformation and star formation quenching.

Abstract

The nature versus nurture scenario in galaxy and group evolution is a long-standing problem not yet fully understood on cosmological scales. We study the properties of groups and their central galaxies in different large-scale environments defined by the luminosity density field and the cosmic web filaments. We use the luminosity density field constructed using 8 Mpc/h smoothing to characterize the large-scale environments and the Bisous model to extract the filamentary structures in different large-scale environments. We find differences in the properties of central galaxies and their groups in and outside of filaments at fixed halo and large-scale environments. In high-density environments, the group mass function has higher number densities in filaments compared to that outside of filaments towards the massive end. The relation is opposite in low-density environments. At fixed group mass and large-scale luminosity density, groups in filaments are slightly more luminous and their central galaxies have redder colors, higher stellar masses, and lower specific star formation rates than those outside of filaments. However, the differences in central galaxy and group properties in and outside of filaments are not clear in some group mass bins. We show that the differences in central galaxy properties are due to the higher abundances of elliptical galaxies in filaments. Filamentary structures in the cosmic web are not simply visual associations of galaxies, but rather play an important role in shaping the properties of groups and their central galaxies. The differences in central galaxy and group properties in and outside of cosmic web filaments are not simple effects related to large-scale environmental density. The results point towards an efficient mechanism in cosmic web filaments which quench star formation and transform central galaxy morphology from late to early types.