http://arxiv.org/abs/1507.05636
We present galaxy stellar mass functions (GSMFs) at $z=$ 4-8 from a rest-frame ultraviolet (UV) selected sample of $\sim$4,500 galaxies, found via photometric redshifts over an area of $\sim$280 arcmin$^2$ in the CANDELS/GOODS fields and the Hubble Ultra Deep Field. The deepest Spitzer/IRAC data yet-to-date from the Spitzer-CANDELS (26.5 mag, 3$\sigma$) and the IRAC Ultra Deep Field 2010 (26.4-27.1 mag, 3$\sigma$) surveys allow us to place robust constraints on the low-mass-end slope of the GSMFs, while the relatively large volume provides a better constraint at higher masses compared to previous space-based studies. Supplemented by a stacking analysis, we find a linear correlation between the rest-frame UV absolute magnitude at 1500\AA\ ($M_{\rm UV}$) and logarithmic stellar mass ($\log M_*$). We use simulations to validate our method of measuring the slope of the $\log M_*$-$M_{\rm UV}$ relation, finding that the bias is minimized with a hybrid technique combining photometry of individual bright galaxies with stacked photometry for faint galaxies. The resultant measured slopes do not significantly evolve over $z=$ 4-8, while the normalization of the trend exhibits a weak evolution towards lower masses at higher redshift for galaxies at fixed $M_{\rm UV}$. We combine the $\log M_*$-$M_{\rm UV}$ distribution with observed rest-frame UV luminosity functions at each redshift to derive the GSMFs. While we see no evidence of an evolution in the characteristic mass $M^*$, we find that the low-mass-end slope becomes steeper with increasing redshift from $\alpha=-1.53^{+0.07}_{-0.06}$ at $z=4$ to $\alpha=-2.45^{+0.34}_{-0.29}$ at $z=8$. The inferred stellar mass density, when integrated over $M_*=10^8$-$10^{13} M_{\odot}$, increases by a factor of $13^{+35}_{-9}$ between $z=7$ and $z=4$ and is in good agreement with the time integral of the cosmic star-formation rate density.
M. Song, S. Finkelstein, M. Ashby, et. al.
Wed, 22 Jul 15
25/59
Comments: 26 pages, 17 figures, submitted to the ApJ
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