The redshift and star formation mode of AzTEC2: a pair of massive galaxies at z=4.63

Abstract

We combine observations from the Atacama Large Millimeter/submillimeter Array (ALMA) and the NOrthern Extended Millimeter Array (NOEMA) to assess the redshift and to study the star formation conditions in AzTEC2: one of the brightest sub-millimeter galaxies (SMGs) in the COSMOS field (S 1.1mm=10.51.4mJy). Our high-resolution observations confirm that AzTEC2 splits into two components (namely AzTEC2-A and AzTEC2-B) for which we detect [C\,II] and 12CO(54) line emission, implying a redshift of 4.6260.001 (4.6330.001) for AzTEC2-A (AzTEC2-B) and ruling out previous associations with a galaxy at z1. We use the 12CO(54) line emission and adopt typical SMG-like gas excitation conditions to estimate the molecular gas mass, which is M gas(α CO/2.5)=2.10.4 ×1011 M for AzTEC2-A, and a factor four lower for AzTEC2-B. With the infrared-derived star formation rate of AzTEC2-A (1920100 \,M \, yr-1) and AzTEC2-B (710 35\,M \,yr-1), they both will consume their current gas reservoir within (30-200)\,Myr. We find evidence of a rotation-dominated [C\,II] disk in AzTEC2-A, with a de-projected rotational velocity of v rot(i=39)=660130 \,km\,s-1, velocity dispersion 100 \,km\,s-1, and dynamical mass of M dyn(i=39)=2.6+1.2-0.9×1011\,M. We propose that an elevated gas accretion rate from the cosmic web might be the main driver of the intense levels of star formation in AzTEC2-A, which might be further enhanced by gravitational torques induced by its minor companion (AzTEC2-B). These results strengthen the picture whereby the population of single-dish selected SMGs is rather heterogeneous, including a population of pairs of massive, highly-active galaxies in a pre-coalescence phase.