The galaxy luminosity function at z ~ 6 and evidence for rapid evolution in the bright end from z ~ 7 to 5

R. A . A. Bowler, J. S. Dunlop, R. J. McLure, H. J. McCracken, H. Furusawa, Y. Taniguchi, J. P. U. Fynbo, B. Milvang-Jensen, O. Le Fevre

Published 2014-11-11Version 1

We present a sample of 266 bright (-22.7 < M_UV < -20.5) Lyman-break galaxies at 5.5 < z < 6.5 found within a total of 1.65 square degrees of imaging in the UltraVISTA/COSMOS and UKIDSS UDS/SXDS fields. The deep near-infrared imaging available in the two independent fields, in addition to deep optical (including z'-band) data, enables the sample of z ~ 6 star-forming galaxies to be securely detected long-ward of the break (in contrast to several previous studies). By simulating the potential contamination of our sample by cool galactic brown dwarfs, we find that the expected contamination rate of our initial sample is < 3 percent and that dwarf stars can be effectively removed by fitting dwarf star spectral templates to the photometry. At z ~ 6 the galaxy surface density in the UltraVISTA field exceeds that in the UDS by a factor of ~ 1.8, indicating strong cosmic variance even between degree-scale fields at z > 5. We calculate the bright end of the rest-frame Ultra-Violet (UV) luminosity function (LF) at z ~ 6. The galaxy number counts are a factor of 2 lower than predicted by the recent LF determination by Bouwens et al.. In comparison to other smaller area studies, we find an evolution in the characteristic magnitude between z ~ 5 and z ~ 7 of dM* ~ 0.4 mag, and show that a double power-law or a Schechter function can equally well describe the LF at z = 6. Furthermore, the bright-end of the LF appears to steepen from z ~ 7 to z ~ 5, which could indicate the onset of mass quenching or the rise of dust obscuration, a conclusion supported by comparing the observed LFs to a range of theoretical model predictions.