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We present the UDF05 HST program, which consists of three disjoint fields-NICP12, NICP34, plus the HUDFwith deep ACS (F606W, F775W, and F850LP) and NICMOS (F110W and F160W) imaging. Here we use the ACS data for the NICP12 and HUDF fields to implement a (V i) - (i z) selection criterion that allows us to identify a sample of 101 (133) z 5 Lyman break galaxies (LBGs) down to z 850 28: 5 (29. 25) mag in NICP12 (HUDF). We construct the rest-frame 1400 8 LBG luminosity function (LF) over the range M 1400 21: 4; 17: 1, i. e. down to 0. 04L at z 5, and use Subaru Deep Field results 22: 2). We show that (1) different assumptions regarding the LBG SED distribution, dust properties, and intergalactic absorption result in a 25% variation in the number density of LBGs at z 5; (2) under consistent assumptions for dust properties and intergalactic absorption, the HUDF is ~30% underdense in z 5 LBGs relative to the NICP12 field, a variation which is well explained by cosmic variance; and (3) the faint-end slope of the LF does not depend on the input parameters, and has a value of 1: 6, similar to the faint-end slope of the LF of z 3 and z 6 LBGs. Our study therefore supports no variation in the faint end of the LBG LF over the whole redshift range z 3 to z 6. Based on a comparison with semianalytical models, we speculate that the z 5 LBGs might have a top-heavy IMF.
Oesch et al. (Thu,) studied this question.
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