A Multiwavelength Study of ELAN Environments (AMUSE2). Mass budget, satellites spin alignment and gas infall in a massive z3 quasar host halo

Abstract

The systematic targeting of extended Lyα emission around high-redshift quasars resulted in the discovery of rare and bright Enormous Lyα Nebulae (ELANe) associated with multiple active galactic nuclei (AGN). We here initiate "a multiwavelength study of ELAN environments" (AMUSE2) focusing on the ELAN around the z3 quasar SDSS J1040+1020, a.k.a. the Fabulous ELAN. We report on VLT/HAWK-I, APEX/LABOCA, JCMT/SCUBA-2, SMA/850μm, ALMA/CO(5-4) and 2mm observations and compare them to previously published VLT/MUSE data. The continuum and line detections enable a first estimate of the star-formation rates, dust, stellar and molecular gas masses in four objects associated with the ELAN (three AGNs and one Lyα emitter), confirming that the quasar host is the most star-forming ( SFR500 M yr-1) and massive galaxy (M star1011 M) in the system, and thus can be assumed as central. All four embedded objects have similar molecular gas reservoirs (M H21010 M), resulting in short depletion time scales. This fact together with the estimated total dark-matter halo mass, M DM=(0.8-2)×1013 M, implies that this ELAN will evolve into a giant elliptical galaxy. Consistently, the constraint on the baryonic mass budget for the whole system indicates that the majority of baryons should reside in a massive warm-hot reservoir (up to 1012 M), needed to complete the baryons count. Additionally, we discuss signatures of gas infall on the compact objects as traced by Lyα radiative transfer effects and the evidence for the alignment between the satellites' spins and their directions to the central.