Discovery of a protocluster at z~6

TL;DR

This paper reports the discovery of a significant protocluster at redshift ~6 with at least eight confirmed member galaxies, providing insights into early galaxy cluster formation and challenging existing models with its high velocity dispersion.

Contribution

First spectroscopic confirmation of a z~6 protocluster with detailed analysis of its properties and implications for early universe structure formation.

Findings

Significant overdensity of z~6 galaxies in the Subaru Deep Field.

Velocity dispersion of protocluster members is higher than standard model predictions.

No observed property differences between cluster members and non-members.

Abstract

We report the discovery of a protocluster at z~6 containing at least eight cluster member galaxies with spectroscopic confirmations in the wide-field image of the Subaru Deep Field (SDF). The overdensity of the protocluster is significant at the 6 sigma level, based on the surface number density of i'-dropout galaxies. The overdense region covers ~36 sq. arcmin, and includes 30 i'-dropout galaxies. Follow-up spectroscopy revealed that 15 of these are real z~6 galaxies (5.7 < z < 6.3). Eight of the 15 are clustering in a narrow redshift range centered at z=6.01, corresponding to a seven-fold increase in number density over the average in redshift space. We found no significant difference in the observed properties, such as Ly-alpha luminosities and UV continuum magnitudes, between the eight protocluster members and the seven non-members. The velocity dispersion of the eight protocluster members is 647 km/s, which is about three times higher than that predicted by the standard cold dark matter model. This discrepancy could be attributed to the distinguishing three-dimensional distribution of the eight protocluster members. We discuss two possible explanations for this discrepancy: either the protocluster is already mature, with old galaxies at the center, or it is still immature and composed of three subgroups merging to become a larger cluster. In either case, this concentration of z=6.01 galaxies in the SDF may be one of the first sites of formation of a galaxy cluster in the universe.