The Build-up of the Red Sequence in the galaxy cluster MS1054-0321 at z=0.831
Abstract
Using one of the deepest datasets available, we determine that the red sequence of the massive cluster MS1054-0321 at z=0.831 is well populated at all studied magnitudes, showing no deficit of faint (down to M*+3.5) red galaxies: the faint end of the colour-magnitude relation is neither empty nor underpopulated. The effect is quantified by the computation of the luminosity function (LF) of red galaxies. We found a flat slope, showing that the abundance of red galaxies is similar at faint and at intermediate magnitudes. Comparison with present-day and z~0.4 LFs suggests that the slope of the LF is not changed, within the errors, between z=0.831 and z=0. Therefore, the analysis of the LF shows no evidence for a decreasing (with magnitude or redshift) number of faint red galaxies. The presence of faint red galaxies in high redshift clusters disfavours scenarios where the evolution of red galaxies is mass-dependent, because the mass dependency should differentially depauperate the red sequence, while the MS1054-0321 colour-magnitude relation is populated as in nearby clusters and as in z~0.4 clusters. The presence of abundant faint red galaxies in the high redshift cluster MS1054-0321 restricts the room for allocating descendants of Butcher-Oemler galaxies, because they should change the faint end slope of the LF of red galaxies, while instead the same faint end slopes are observed in MS1054-0321, at z~0 and at z~0.4. In the rich MS1054-0321 cluster, the colour-magnitude relation seems to be fully in place at z=0.831 and therefore red galaxies of all magnitudes were wholly assembled at higher redshift.
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