Dynamics of Star-forming Galaxies in a Massive Structure at z 2.2: Evidence for Galaxy Harassment in high-z Environments

Abstract

We spectroscopically confirm a new protocluster in the COSMOS field at z=2.24430 with Keck/MOSFIRE, dubbed CC2.2B, which is in the immediate vicinity of CC2.2A protocluster, originally presented in Darvish20. CC2.2B and CC2.2A centroids are separated by 5.5 Mpc(angular) and 16 comoving Mpc(radial). CC2.2B and CC2.2A have similar properties, with CC2.2B having a line-of-sight velocity dispersion and estimated total mass of σlos=69365 km s-1 and Mtotal=(2-3)×1014 M, respectively. These two similar overdensities are likely still in the merging process and will likely collapse into a more massive structure at lower redshifts. We combine CC2.2A and CC2.2B data to investigate the role of high-z protocluster environments on the dynamics of star-forming (SF) galaxies compared to a similarly selected field sample. We find that on average, protocluster SF galaxies have 0.1 dex (at 1.8σ significance) lower gas velocity dispersions, 0.2 dex (at 2.2σ significance) lower dynamical masses, and 0.2 dex lower dynamical-to-stellar mass ratio than the field SF galaxies. We argue that galaxy harassment and galaxy-galaxy interactions can potentially explain these differences. We also find a factor of 2-3 lower scatter around the mean σ-M*, Mdyn-M*, and Mdyn/M* vs. M* relations for protocluster SF galaxies than the field. This could be due to a more uniform formation for protocluster galaxies than their field counterparts. Our results have potential implications for the physics of preprocessing in early environments.

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