The evolution of galactic discs
1998; Oxford University Press; Volume: 297; Issue: 3 Linguagem: Inglês
10.1046/j.1365-8711.1998.01766.x
ISSN1365-2966
AutoresShude Mao, H. J. Mo, S. D. M. White,
Tópico(s)Galaxies: Formation, Evolution, Phenomena
ResumoWe use recent observations of high-redshift galaxies to study the evolution of galactic discs over the redshift range 0 < z≲1. The data are inconsistent with models in which discs were already assembled at z = 1 and have evolved only in luminosity since that time. Assuming that disc properties change with redshift as powers of 1 + z and analysing the observations assuming an Einstein–de Sitter universe, we find that for given rotation speed, disc scalelength decreases with z as ∼ (1 + z)−1, total B-band mass-to-light ratio decreases with z as ∼ (1 + z)−1, and disc luminosity (again in B) depends only weakly on z. These scalings are consistent with current data on the evolution of disc galaxy abundance as a function of size and luminosity. Both the scalings and the abundance evolution are close to the predictions of hierarchical models for galaxy formation. If different cosmogonies are compared, the observed evolution in disc size and disc abundance favours a flat low-Ω0 universe over an Einstein–de Sitter universe.
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