GALAXY DOWNSIZING EVIDENCED BY HYBRID EVOLUTIONARY TRACKS
- INAF-Osservatorio Astronomico di Brera, via E. Bianchi 46, I-23807 Merate (Italy)
- Instituto de AstronomIa, Universidad Nacional Autonoma de Mexico, A.P. 70-264, 04510 Mexico, DF (Mexico)
The stellar-dark halo mass relation of galaxies at different redshifts, M{sub s}(M{sub h}, z), encloses relevant features concerning their physical processes and evolution. This sequence of relations, defined in the range 0 < z < 4, together with average {Lambda} cold dark matter ({Lambda}CDM) halo mass aggregation histories (MAHs), is used here for inferring average galaxian hybrid evolutionary tracks (GHETs), where 'hybrid' remarks on the combination of observational (M{sub s}) and theoretical (M{sub h}) ingredients. As a result of our approach, a unified picture of stellar and halo mass buildup, population migration, and downsizing of galaxies as a function of mass is presented. The inferred average M{sub s} growth histories (GHETs) of the highest and lowest mass galaxies are definitively quite different from the average MAHs, M{sub h}(z), of the corresponding dark halos. Depending on how a given M{sub h}(z) compares with the mass at which the M{sub s}-to-M{sub h} ratio curve peaks at the epoch z, M{sub hp}(z), two evolutionary phases are evidenced: (1) galaxies in an active regime of M{sub s} growth when M{sub h} < M{sub hp} and (2) galaxies in a quiescent or passive regime when M{sub h}>M{sub hp}. The typical M{sub s} at which galaxies transit from the active (star-forming) to the quiescent regime, M{sub tran}, increases with z, log(M{sub tran}/M{sub sun}) {approx}10.30 + 0.55z, making evident a population downsizing phenomenon. This result agrees with independent observational determinations based on the evolution of the galaxy stellar mass function decomposition into blue and red galaxy populations. The specific star formation rate (SSFR) predicted from the derivative of the GHET is consistent with direct measures of the SSFR for galaxies at different redshifts, though both sets of observational inferences are independent. The average GHETs of galaxies smaller than M{sub tran} at z = 0 (M{sub s} {approx}10{sup 10.3} M{sub sun}, M{sub h} {approx}10{sup 11.8} M{sub sun}) did not reach the quiescent regime, and for them, the lower the mass, the faster the later M{sub s} growth rate (downsizing in SSFR). The GHETs allow us to predict the transition rate in the number density of active to passive population; the predicted values agree with direct estimates of the growth rate in the number density for the (massive) red population up to z {approx} 1. We show that {Lambda}CDM-based models of disk galaxy evolution, including feedback-driven outflows, are able to reproduce the low-mass side of the M{sub s}-M{sub h} relation at z {approx} 0, but at higher z strongly disagree with the GHETs: models do not reproduce the strong downsizing in SSFR and the high SSFR of low-mass galaxies.
- OSTI ID:
- 21467159
- Journal Information:
- Astrophysical Journal, Vol. 723, Issue 1; Other Information: DOI: 10.1088/0004-637X/723/1/755; ISSN 0004-637X
- Country of Publication:
- United States
- Language:
- English
Similar Records
EVOLUTION OF THE GALAXY-DARK MATTER CONNECTION AND THE ASSEMBLY OF GALAXIES IN DARK MATTER HALOS
THE STAR FORMATION HISTORY OF MASS-SELECTED GALAXIES IN THE COSMOS FIELD