Lyman Break Galaxies, Lyα Emitters, and a Radio Galaxy in a Protocluster atz= 4.1 | doi.page

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Lyman Break Galaxies, Lyα Emitters, and a Radio Galaxy in a Protocluster atz= 4.1

The Astrophysical Journal2008Vol. 673(1), pp. 143–162

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Abstract

We present deep HST ACS observations in g_(475)r_(625)i_(775)z_(850) toward the z = 4.1 radio galaxy TN J1338–1942 and its overdensity of >30 spectroscopically confirmed Lyα emitters (LAEs). We select 66 g_(475) band dropouts to z_(850),(5σ) = 27, 6 of which are also LAEs. Although our color-color selection results in a relatively broad redshift range centered on z = 4.1, the field of TN J1338–1942 is richer than the average field at the > 5 σ significance, based on a comparison with GOODS. The angular distribution is filamentary with about half of the objects clustered near the radio galaxy, and a small, excess signal (2 σ) in the projected pair counts at separations of θ < 10" is interpreted as being due to physical pairs. The LAEs are young (a few times 10^7 yr), small (<r_(hl)> = 0.13") galaxies, and we derive a mean stellar mass of ~10^8-10^9 M⊙ based on a stacked Ks band image. We determine star formation rates, sizes, morphologies, and color-magnitude relations of the g_(475)-dropouts and find no evidence for a difference between galaxies near TN J1338–1942 and in the field. We conclude that environmental trends as observed in clusters at much lower redshift are either not yet present or washed out by the relatively broad selection in redshift. The large galaxy overdensity, its corresponding mass overdensity, and the subclustering at the approximate redshift of TN J1338–1942 suggest the assemblage of a >10^14 M⊙ structure, confirming that it is possible to find and study cluster progenitors in the linear regime at z ≳ 4.\n

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Abstract

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