The Baryonic Mass Function of Spiral Galaxies: Clues to Galaxy Formation

Abstract

We compute the baryonic mass function (BMF) of disc galaxies using the best LFs and baryonic M/L ratios reliable for this goal. For baryonic masses (Mb) ranging between 108 and 1011 solar masses, the BMF is featureless, i.e. it scales as Mb-1/2. Outside this mass range, the BMF is a strong inverse function of Mb. The contributions to the baryon density Omegab from objects of different mass highlight a characteristic mass scale of spirals at about 2x1011 solar masses, around which >50% of the total baryonic mass is concentrated. The integral value, Omegab= 1.4x10-3, confirms, to a higher accuracy, previous evidence (Persic & Salucci 1992) that the fraction of BBN baryons locked in disc galaxies is negligible and matches that of high-z Damped Lyman Alpha systems (DLAs). We investigate the scenario where DLAs are the progenitors of present-day spirals, and find a simple relationship between their masses and HI column densities by which the DLA mass function closely matches the spiral BMF.

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