The Hubble Deep Field and the Disappearing Dwarf Galaxies
Abstract
Several independent lines of reasoning suggest that many of the very faint (B > 24) blue galaxies are low-mass objects that experienced a short epoch of star formation at redshifts 0.5 < z < 1 and have since faded into low luminosity, low surface brightness objects. Such a scenario, which arises naturally if star formation in dwarf galaxies is delayed by photoionisation due to the metagalactic UV radiation field, provides an attractive way to reconcile the Einstein-de Sitter cosmological model to the steeply rising galaxy counts observed at blue wavelengths. The Hubble Deep Field (HDF) images provide a stringent test of this model. We compare the Babul & Ferguson (1996) model to the data by constructing using simulated images and carrying out source detection and photometry for the simulations in the same way they were carried out for the real data. We compare the model predictions for the counts, sizes, and colours of galaxies observed in the HDF, and to the predictions from a low q0 pure-luminosity-evolution (PLE) model. Both models fail to reproduce the observations. The low q0 model predicts far more Lyman-break ``dropouts'' than are seen in the data. The fading dwarf model predicts too many remnants: faded dwarf galaxies in the redshift range 0.2 < z < 0.5 that should be detectable in the HDF as low-surface brightness red objects but are not seen. If fading dwarf galaxies are to reconcile the Einstein-de Sitter geometry to the counts, then the dwarf population must (a) form earlier than z ~ 1, with a higher initial luminosity; (b) have an initial-mass function more heavily weighted toward massive stars than the Salpeter IMF; or (c) expand much more than assumed during the supernova wind phase.
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