Lyman Break Galaxies and the Star Formation Rate of the Universe at z~6
Abstract
We determine the space density of UV-luminous star-burst galaxies at z~6 using deep HST ACS SDSS-i' (F775W) and SDSS-z' (F850LP) and VLT ISAAC J and Ks band imaging of the Chandra Deep Field South. We find 8 galaxies and one star with (i'-z')>1.5 to a depth of z'AB= 25.6 (an 8-sigma detection in each of the 3 available ACS epochs). This corresponds to an unobscured star formation rate of ~15Msun/yr/h702 at z=5.8, equivalent to L* for the Lyman break population at z =3-4 (OmegaLambda=0.7, OmegaM=0.3). We are sensitive to star forming galaxies at 5.6<z<7.0 with an effective comoving volume of \~1.8x105 Mpc3/h703 after accounting for incompleteness at the higher redshifts due to luminosity bias. This volume should encompass the primeval sub-galactic scale fragments of the progenitors of about a thousand L* galaxies at the current epoch. We determine a volume-averaged global star formation rate of (6.7 +/- 2.7)x10-4h70Msun/yr/Mpc3 at z~6 from rest-frame UV selected star-bursts at the bright end of the luminosity function: this is a lower limit because of dust obscuration and galaxies below our sensitivity limit. This measurement shows that at z~6 the star formation density at the bright end is a factor of ~6 times less than that determined by Steidel et al. (1999) for a comparable sample of UV selected galaxies at z=3-4, and so extends our knowledge of the star formation history of the Universe to earlier times than previous work and into the epoch where reionization may have occurred.
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