An extreme proto-cluster of luminous dusty starbursts in the early Universe

Abstract

We report the identification of an extreme proto-cluster of galaxies in the early Universe whose core (nicknamed Distant Red Core, DRC) is formed by at least ten dusty star-forming galaxies (DSFGs), confirmed to lie at z spec = 4.002 via detection of [CI](1-0), 12CO(6-5), 12CO(4-3), 12CO(2-1) and H2O (211 - 202) emission lines, detected using ALMA and ATCA. The spectroscopically-confirmed components of the proto-cluster are distributed over a 260\, kpc × 310\, kpc region and have a collective obscured star-formation rate (SFR) of 6500 \, M \, yr-1, considerably higher than has been seen before in any proto-cluster of galaxies or over-densities of DSFGs at z 4. Most of the star formation is taking place in luminous DSFGs since no Lyα emitters are detected in the proto-cluster core, apart from a Lyα blob located next to one of the DRC dusty components and extending over 60\, kpc. The total obscured SFR of the proto-cluster could rise to SFR 14,400 \, M \, yr-1 if all the members of an over-density of bright DSFGs discovered around DRC in a wide-field LABOCA 870-μm image are part of the same structure. The total halo mass of DRC could be as high as 4.4 × 1013\,M and could be the progenitor of a Coma-like cluster at z = 0. The relatively short gas-depletion times of the DRC components suggest either the presence of a mechanism able to trigger extreme star formation simultaneously in galaxies spread over a few hundred kpc or the presence of gas flows from the cosmic web able to sustain star formation over several hundred million years.