Astronomy and Astrophysics – Astrophysics
Scientific paper
1998-03-09
Astronomy and Astrophysics
Astrophysics
34 pages, 10 Postcript figures, Latex, uses aaspp4.sty, submitted to ApJ
Scientific paper
We present a scenario for the formation and evolution of disk galaxies within the framework of an inflationary CDM universe, and we compare the results with observations ranking from the present-day up to z~1. Galactic disks are built-up inside-out by gas infall with accretion rates driven by the cosmological mass aggregation history (MAH). We generate the MAHs for a Gaussian density fluctuation field, and we calculate the gravitational collapse and virialization of the dark halos. Assuming detailed angular momentum conservation, disks in centrifugal equilibrium are built-up within them. The disk galactic evolution is followed through a physically self-consistent approach. The main disk galaxy properties and their correlations are determined by the mass, the MAH, and the spin parameter. The models give exponential disk surface brightness (SB) profiles with realistic parameters (including LSB galaxies), nearly flat rotation curves, and negative gradients in the B-V radial profile. The main trends across the Hubble sequence are reproduced. A maximum in the star formation rate for most of the models is attained at z~ 1.5-2.5 (this rate is approximately 2.5-4.0 times larger than the present one). The scale radii and the bulge-to-total ratios decrease with z, while the central SB increase. The B-band TF relation remains almost the same at different redshifts. Our scenario reveals that the cosmological initial conditions are able to determine the main properties of disk galaxies and predict evolutionary features for the present-day dominant galaxy population that are in agreement with very recent deep field observational studies.
Avila-Reese Vladimir
Firmani Claudio
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