Reconstructing the Assembly of Massive Galaxies. I: The Importance of the Progenitor Effect in the Observed Properties of Quiescent Galaxies at z≈ 2

Abstract

We study the relationship between the morphology and star formation history (SFH) of 361 quiescent galaxies (QGs) at redshift zobs≈ 2, with stellar mass M*10.3, selected with the UVJ technique. Taking advantage of panchromatic photometry covering the rest-frame UV-to-NIR spectral range (≈40 bands), we reconstruct the non-parametric SFH of the galaxies with the fully Bayesian SED fitting code Prospector. We find that the half-light radius Re, observed at zobs, depends on the formation redshift of the galaxies, zform, and that this relationship depends on stellar mass. At M*<11, the relationship is consistent with Re(1+zform)-1, in line with the expectation that the galaxies' central density depends on the cosmic density at the time of their formation, i.e. the "progenitor effect". At M*>11, the relationship between Re and zform flattens, suggesting that mergers become increasingly important for the size growth of more massive galaxies after they quenched. We also find that the relationship between zform and galaxy compactness similarly depends on stellar mass. While no clear trend is observed for QGs with M*>11, lower-mass QGs that formed earlier, i.e. with larger zform, have larger central stellar mass surface densities, both within the Re (e) and central 1 kpc (1kpc), and also larger M1kpc/M*, the fractional mass within the central 1 kpc. These trends between zform and compactness, however, essentially disappear, if the progenitor effect is removed by normalizing the stellar density with the cosmic density at zform. Our findings highlight the importance of reconstructing the SFH of galaxies before attempting to infer their intrinsic structural evolution.