On the nature of the extragalactic number counts in the K-band

Abstract

We investigate the causes of the different shape of the K-band number counts when compared to other bands, analyzing in detail the presence of a change in the slope around K17.5. We present a near-infrared imaging survey, conducted at the 3.5m telescope of the Calar Alto Spanish-German Astronomical Center (CAHA), covering two separated fields centered on the HFDN and the Groth field, with a total combined area of 0.27deg2 to a depth of K19 (3σ,Vega). We derive luminosity functions from the observed K-band in the redshift range [0.25-1.25], that are combined with data from the references in multiple bands and redshifts, to build up the K-band number count distribution. We find that the overall shape of the number counts can be grouped into three regimes: the classic Euclidean slope regime (d N/dm0.6) at bright magnitudes; a transition regime at intermediate magnitudes, dominated by M galaxies at the redshift that maximizes the product φdVcd; and an α dominated regime at faint magnitudes, where the slope asymptotically approaches -0.4(α+1) controlled by post-M galaxies. The slope of the K-band number counts presents an averaged decrement of 50% in the range 15.5<K<18.5 (d N/dm0.6-0.30). The rate of change in the slope is highly sensitive to cosmic variance effects. The decreasing trend is the consequence of a prominent decrease of the characteristic density φK,obs (60% from z=0.5 to z=1.5) and an almost flat evolution of MK,obs (1σ compatible with MK,obs=-22.890.25 in the same redshift range).