Astronomy and Astrophysics – Astrophysics
Scientific paper
2006-08-25
Mon.Not.Roy.Astron.Soc.376:1711-1726,2007
Astronomy and Astrophysics
Astrophysics
19 pages; Accepted by MNRAS; revised version following referee's report
Scientific paper
10.1111/j.1365-2966.2007.11530.x
We present predictions for the structural and photometric properties of early-type galaxies in the cold dark matter cosmology from the published semi-analytical galaxy formation models of Baugh et al. and Bower et al. These calculations were made with the GALFORM code, which tracks the evolution of the disc and bulge components of a galaxy, using a self-consistent model to compute the scalelengths. The sizes of galactic discs are determined by the conservation of the angular momentum of cooling gas. The sizes of merger remnants are computed by applying the virial theorem and conserving the binding energy of the progenitors and their orbital energy. We compare the model predictions with observational results derived from the SDSS. The model enjoys a number of notable successes, such as giving reasonable reproductions of the local Faber-Jackson relation, the velocity dispersion-age relation, and the fundamental plane relating the luminosity, velocity dispersion and effective radius of spheroids. These achievements are all the more remarkable when one bears in mind that none of the parameters have been adjusted to refine the model predictions. We study how the residuals around the fundamental plane relation depend on galaxy properties. We examine in detail the physical ingredients of the calculation of galaxy sizes. We also study the evolution of the scaling relations with redshift. However, there are some important disagreements between the predictions of the model and observations: the brightest model spheroids have effective radii smaller than observed and the zero-point of the fundamental plane shows little or no evolution with redshift in the model.
Almeida Cesario
Baugh Carlton M.
Lacey Cedric G.
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