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Duncan, K; Conselice, C. J; Mortlock, A; Hartley, W. G; Guo, Y; Ferguson, H. C; Davé, R; Lu, Y; Ownsworth, J; Ashby, M. L. N; Dekel, A; Dickinson, M; Faber, S; Giavalisco, M; Grogin, N; Kocevski, D; Koekemoer, A; Somerville, R. S; White, C. E
Monthly notices of the Royal Astronomical Society, 11/2014, Volume: 444, Issue: 3Journal Article
We measure new estimates for the galaxy stellar mass function and star formation rates for samples of galaxies at z ∼ 4, 5, 6 and 7 using data in the CANDELS GOODS South field. The deep near-infrared observations allow us to construct the stellar mass function at z ≥ 6 directly for the first time. We estimate stellar masses for our sample by fitting the observed spectral energy distributions with synthetic stellar populations, including nebular line and continuum emission. The observed UV luminosity functions for the samples are consistent with previous observations; however, we find that the observed M UV-M * relation has a shallow slope more consistent with a constant mass-to-light ratio and a normalization which evolves with redshift. Our stellar mass functions have steep low-mass slopes (α ≈ −1.9), steeper than previously observed at these redshifts and closer to that of the UV luminosity function. Integrating our new mass functions, we find the observed stellar mass density evolves from $\log _{10} \rho _{*} = 6.64^{+0.58}_{-0.89}$ at z ∼ 7 to 7.36 ± 0.06 M⊙ Mpc− 3 at z ∼ 4. Finally, combining the measured UV continuum slopes (β) with their rest-frame UV luminosities, we calculate dust-corrected star formation rates (SFR) for our sample. We find the specific SFR for a fixed stellar mass increases with redshift whilst the global SFR density falls rapidly over this period. Our new SFR density estimates are higher than previously observed at this redshift.
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