Structural Evolution of Early-type Galaxies to z=2.5 in CANDELS

TL;DR

This study investigates the intrinsic shapes of early-type galaxies up to redshift 2.5 using axis ratio data from CANDELS, revealing evolving proportions of oblate and triaxial types influenced by galaxy mass and cosmic time.

Contribution

It provides a novel two-population model for galaxy shapes and demonstrates how the oblate fraction varies with mass and redshift, extending understanding of galaxy evolution.

Findings

Oblate fraction among massive galaxies was higher at z>1 than today.

The intrinsic shape distribution varies with galaxy mass and redshift.

A two-population model effectively describes galaxy shapes across cosmic time.

Abstract

Projected axis ratio measurements of 880 early-type galaxies at redshifts 1<z<2.5 selected from CANDELS are used to reconstruct and model their intrinsic shapes. The sample is selected on the basis of multiple rest-frame colors to reflect low star-formation activity. We demonstrate that these galaxies as an ensemble are dust-poor and transparent and therefore likely have smooth light profiles, similar to visually classified early-type galaxies. Similar to their present-day counterparts, the z>1 early-type galaxies show a variety of intrinsic shapes; even at a fixed mass, the projected axis ratio distributions cannot be explained by the random projection of a set of galaxies with very similar intrinsic shapes. However, a two-population model for the intrinsic shapes, consisting of a triaxial, fairly round population, combined with a flat (c/a~0.3) oblate population, adequately describes the projected axis ratio distributions of both present-day and z>1 early-type galaxies. We find that the proportion of oblate versus triaxial galaxies depends both on the galaxies' stellar mass, and - at a given mass - on redshift. For present-day and z<1 early-type galaxies the oblate fraction strongly depends on galaxy mass. At z>1 this trend is much weaker over the mass range explored here (10^10<M*/M_sun<10^11), because the oblate fraction among massive (M*~10^11 M_sun) was much higher in the past: 0.59+-0.10 at z>1, compared to 0.20+-0.02 at z~0.1. In contrast, the oblate fraction among low-mass early-type galaxies (log(M*/M_sun)<10.5) increased toward the present, from 0.38+-0.11 at z>1 to 0.72+-0.06 at z=0. [Abridged]