Abstract / Description of output
The source counts of galaxies discovered at submillimetre and millimetre
wavelengths provide important information on the evolution of
infrared-bright galaxies. We combine the data from six blank-field
surveys carried out at 1.1 mm with AzTEC, totalling 1.6 deg2
in area with root-mean-square depths ranging from 0.4 to 1.7 mJy, and
derive the strongest constraints to date on the 1.1 mm source counts at
flux densities S1100= 1-12 mJy. Using additional data from
the AzTEC Cluster Environment Survey to extend the counts to
S1100˜ 20 mJy, we see tentative evidence for an
enhancement relative to the exponential drop in the counts at
S1100˜ 13 mJy and a smooth connection to the bright
source counts at >20 mJy measured by the South Pole Telescope; this
excess may be due to strong-lensing effects. We compare these counts to
predictions from several semi-analytical and phenomenological models and
find that for most the agreement is quite good at flux densities ≳
4 mJy; however, we find significant discrepancies (≳ 3σ)
between the models and the observed 1.1-mm counts at lower flux
densities, and none of them is consistent with the observed turnover in
the Euclidean-normalized counts at S1100≲ 2 mJy. Our new
results therefore may require modifications to existing evolutionary
models for low-luminosity galaxies. Alternatively, the discrepancy
between the measured counts at the faint end and predictions from
phenomenological models could arise from limited knowledge of the
spectral energy distributions of faint galaxies in the local Universe.
Original language | English |
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Pages (from-to) | 575-589 |
Journal | Monthly Notices of the Royal Astronomical Society |
Volume | 423 |
Publication status | Published - 1 Jun 2012 |
Keywords / Materials (for Non-textual outputs)
- galaxies: evolution
- galaxies: high-redshift
- galaxies: starburst
- submillimetre: galaxies