The Zurich Environmental Study (ZENS) of Galaxies in Groups along the Cosmic Web. I. Which Environment Affects Galaxy Evolution?

TL;DR

The ZENS study analyzes how different galactic environments influence galaxy evolution, revealing that galaxy properties are primarily regulated by mass, with environment affecting satellite quenching and group relaxation.

Contribution

This paper introduces novel methods to quantify multiple galactic environments and assesses their impact on galaxy properties within a large, well-defined sample.

Findings

Centrals in relaxed and unrelaxed groups have similar properties.

Satellite galaxies are marginally redder in relaxed groups at low mass.

Stellar mass conversion efficiencies peak at halo masses around 10^12.5 M_sun.

Abstract

The Zurich Environmental Study (ZENS) is based on a sample of ~1500 galaxy members of 141 groups in the mass range ~10^12.5-14.5 M_sun within the narrow redshift range 0.05<z<0.0585. ZENS adopts novel approaches, here described, to quantify four different galactic environments, namely: (1) the mass of the host group halo; (2) the projected halo-centric distance; (3) the rank of galaxies as central or satellites within their group halos; and (4) the filamentary large-scale structure (LSS) density. No self-consistent identification of a central galaxy is found in ~40% of <10^13.5 M_sun groups, from which we estimate that ~15% of groups at these masses are dynamically unrelaxed systems. Central galaxies in relaxed and unrelaxed groups have in general similar properties, suggesting that centrals are regulated by their mass and not by their environment. Centrals in relaxed groups have however ~30% larger sizes than in unrelaxed groups, possibly due accretion of small satellites in virialized group halos. At M>10^10 M_sun, satellite galaxies in relaxed and unrelaxed groups have similar size, color and (specific) star formation rate distributions; at lower galaxy masses, satellites are marginally redder in relaxed relative to unrelaxed groups, suggesting quenching of star formation in low-mass satellites by physical processes active in relaxed halos. Finally, relaxed and unrelated groups show similar stellar mass conversion efficiencies, peaking at halo masses around 10^12.5 M_sun. In the enclosed ZENS catalogue we publish all environmental diagnostics as well as the galaxy structural and photometric measurements described in companion ZENS papers II and III.