The morphological mix of field galaxies to I=24.25 magnitudes (b=26 magnitudes) from a deep Hubble Space Telescope WFPC2 image

Abstract

We determine the morphological mix of field galaxies down to mI 24.25 mag (mB 26.0 mag) from a single ultradeep HST WFPC2 image in both the V606 and I814 filters. In total, we find 227 objects with mI 24.5 mag and classify these into three types: ellipticals (16%), early-type spirals (37%) and late-type spirals/Irregulars (47%). The differential number counts for each type are compared to simple models in a standard flat cosmology. We find that both the elliptical and early-type spiral number counts are well described by little or no-evolution models, but only when normalized at bJ = 18.0 mag. Given the uncertainties in the luminosity function (LF) normalization, both populations are consistent with a mild evolutionary scenario based on a normal/low rate of star-formation. This constrains the end of the last major star-formation epoch in the giant galaxy populations to z≥ 0.8. Conversely, the density of the observed late-type/Irregular population is found to be a factor of 10 in excess of the conventional no-evolution model. This large population might be explained by either a modified local dwarf-rich LF, and/or strong evolution acting on the local LF. For the dwarf-rich case, a steep faint-end Schechter-slope (α -1.8) is required plus a five-fold increase in the dwarf normalization. For a purely evolving model based on a flat Loveday et al. (1992) LF (α -1.0), a ubiquitous starburst of I2.0 mag is needed at z 0.5 for the entire late-type population. We argue for a combination of these possibilities, and show that for a steep Marzke et al. (1994) LF (α -1.5), a starburst of 1.3 mag is required

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