1111.2726 (N. Castro-Rodriguez et al.)

The age of extremely red and massive galaxies at very high redshift    [PDF]

N. Castro-Rodriguez, M. Lopez-Corredoira

Aims. We present a determination of the intrinsic colors and ages of galaxies at very high redshift, in particular old galaxies (OGs) within extremely red objects (EROs). To date, the definition of EROs has been restricted to objects with z<2.5, however, here consider objects with the same properties but shifted to higher redshifts (z>2.5). We therefore, refer to these objects as very high-redshift EROs (Z-EROS, herein). Methods. We analyze 63,550 galaxies selected in the XMM-LSS field. To obtain a reasonably sized sample of EROs, it is essential to consider a very wide area surveys. We identify targets within an area of 0.77 square degrees for which optical to mid-infrared data are available from SUBARU, UKIDSS, and Spitzer. We select Z-EROs based on their colors, and then perform a selection of only OGs. One of our novel innovations is to adapt the traditional method of EROs selection based on the filters I and K, to higher redshifts. Using our method, we identify 20 objects that satisfy the conditions required to be Z-EROs/OGs at redshifts 2.5~4.7. After including additional galaxies with z<2.5 analyzed in a previous paper, we find that the formation epoch depends significantly on the observed redshift and stellar mass: the higher the stellar mass, the lower the age of the Universe at which it was formed. This result appears to conflict with Lambda-CDM models that claim that the most massive galaxies formed after lower mass.

View original: http://arxiv.org/abs/1111.2726