The Structures of Distant Galaxies V: The Evolution of Galaxy Structure in Stellar Mass at z < 1

TL;DR

This study investigates the stellar mass distributions of galaxies at z<1 using pixel-by-pixel K-corrections, revealing insights into galaxy structure, morphology, and evolution, and comparing mass-based and light-based measurements.

Contribution

It introduces a method to analyze galaxy structure via stellar mass maps and compares these with traditional light-based measurements, providing new insights into galaxy morphology evolution.

Findings

Stellar mass maps reveal clear morphological distinctions.

No systematic bias between size measurements in z_{850} and mass maps.

Higher asymmetry in late-type galaxies at higher redshift.

Abstract

Galaxy structure and morphology is nearly always studied using the light originating from stars, however ideally one is interested in measuring structure using the stellar mass distribution. Not only does stellar mass trace out the underlying distribution of matter, it also minimises the effects of star formation and dust on the appearance and structure of a galaxy. We present in this paper a study of the stellar mass distributions and structures of galaxies at z<1 as found within the GOODS fields. We use pixel by pixel K-corrections to construct stellar mass and mass-to-light ratio maps of 560 galaxies of known morphology at magnitudes z_{850}<24. We measure structural and size parameters using these stellar mass maps, as well as on ACS BViz band imaging. This includes investigating the structural CAS-Gini-M_{20} parameters and half-light radius for each galaxy. We compare structural parameters and half-light radii in the ACS z_{850}-band and stellar mass maps, finding no systematic bias introduced by measuring galaxy sizes in z_{850}. We furthermore investigate relations between structural parameters in the ACS BViz bands and stellar mass maps, and compare our result to previous morphological studies. Combinations of various parameters in stellar mass generally reveal clear separations between early and late type morphologies, but cannot easily distinguish between star formation and dynamically disturbed systems. We also show that while ellipticals and early-type spirals have fairly constant CAS values at z<1 we find a tendency for late-type spiral and peculiar morphological types to have a higher A(M_{*}) at higher redshift. We argue that this, and the large fraction of peculiars that appear spiral-like in stellar mass maps, are possible evidence for either an active bulge formation in some late-type disks at z<1 or the presence of minor merger events.