Abstract / Description of output
We have analysed a sample of 1292 4.5-μm-selected galaxies at z≥
3, over 0.6 deg2 of the UKIRT Infrared Deep Survey (UKIDSS)
Ultra Deep Survey (UDS). Using photometry from the U band through 4.5
μm, we have obtained photometric redshifts and derived stellar masses
for our sources. Only two of our galaxies potentially lie at z > 5.
We have studied the galaxy stellar mass function at 3 ≤z <5,
based on the 1213 galaxies in our catalogue with 4.5-μm magnitudes
≤24.0. We find that (i) the number density of ? galaxies increased by
a factor of >10 between z= 5 and 3, indicating that the assembly rate
of these galaxies proceeded >20 times faster at these redshifts than
at 0 <z <2; (ii) the Schechter function slope α is
significantly steeper than that displayed by the local stellar mass
function, which is a consequence of both the steeper faint end and the
absence of a pure exponential decline at the high-mass end; and (iii)
the evolution of the comoving stellar mass density from z= 0 to 5 can be
modelled as log10ρM=-(0.05 ±
0.09)z2-(0.22 ∓ 0.32)z+ 8.69. At 3 ≤z <4, more
than 30 per cent of the ? galaxies would be missed by optical surveys
with R <27 or z <26. Thus, our study demonstrates the importance
of deep mid-infrared surveys over large areas to perform a complete
census of massive galaxies at high z and trace the early stages of
massive galaxy assembly.
Original language | English |
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Pages (from-to) | 162-176 |
Journal | Monthly Notices of the Royal Astronomical Society |
Volume | 413 |
Publication status | Published - 1 May 2011 |
Keywords / Materials (for Non-textual outputs)
- galaxies: luminosity function
- mass function
- galaxies: statistics
- infrared: galaxies