The Zurich Environmental Study of Galaxies in Groups along the Cosmic Web. III. Galaxy Photometric Measurements and the Spatially-Resolved Color Properties of Early- and Late-Type Satellites in Diverse Environments

TL;DR

This study provides detailed photometric measurements and analyzes the spatially-resolved color properties of galaxies in groups, revealing how environment influences galaxy evolution, especially for disk satellites, through color gradients and quenching processes.

Contribution

It introduces a comprehensive photometric database for galaxies in groups and investigates environmental effects on galaxy colors and star formation at fixed stellar mass and morphology.

Findings

Disk-dominated satellites are redder in group centers at lower masses.

Color gradients are shallower in higher mass groups and group cores.

Outer disk star formation quenching occurs over ~2 Gyr as satellites move inward.

Abstract

We present photometric measurements for the galaxies - and when possible their bulges and disks - in the 0.05<z<0.0585 groups of the Zurich Environmental Study (ZENS); these measurements include (B-I) colors, color gradients and maps, color dispersions, as well as stellar masses and star-formation rates. The ZENS galaxies are classified into quenched, moderately star-forming, and strongly star-forming using a combination of spectral features and FUV-to-optical colors; this approach optimally distinguishes quenched systems from dust-reddened star-forming galaxies. The latter contribute up to 50% to the (B-I) "red sequence" at ~10^10Msun. At fixed morphological or spectral type, we find that galaxy stellar masses are largely independent of environment, and especially of halo mass. As a first utilization of our photometric database, we study, at fixed stellar mass and Hubble type, how (B-I) colors, color gradients and color dispersion of disk satellites depend on group mass (M_GROUP), group-centric distance (R/R_200) and large-scale structure overdensity. The strongest environmental trend is found for disk-dominated satellites with M_GROUP and R/R_200. At M<10^10 Msun, disk-dominated satellites are redder in the inner regions of the groups than in the outer parts. At M>10^10 Msun, these satellites have shallower color gradients in higher mass groups and in the cores of groups compared with lower mass groups and the outskirts of groups. Stellar population analyses and semi-analytic models suggest that disk-dominated satellites undergo quenching of star formation in their outer disks, on timescales ~2 Gyr, as they progressively move inside the group potential.