A MUltiwavelength Study of ELAN Environments (AMUSE$^2$): The Impact of Dense Environment on Massive Dusty Star-Forming Galaxies at Cosmic Noon

Abstract: To understand how massive galaxies are influenced by their surroundings, we present new ALMA and NOEMA observations as part of A MUltiwavelength Study of ELAN Environments (AMUSE$^2$). These observations target submillimeter sources discovered in single-dish surveys around nine quasars hosting Ly$\alpha$ nebulae at $z=2\sim3$, including two Enormous Ly$\alpha$ nebulae (ELANe). Through detection of mid-$J$ CO lines, we confirm physical associations of 15 SMGs, which are located outside the expected virial radii of the central dark-matter halos hosting the quasars. We find $73^{+29}_{-21}\%$ of SMGs have line profiles better described by double Gaussian models, with a median peak-to-peak separation of 350 $\pm$ 25 km/s, suggesting rotating disks or interacting pairs. Modified blackbody fits of the far-infrared photometry yield a median $\beta$ of 2.0 $\pm$ 0.2 and $T_{dust}$ of 34 $\pm$ 3 K. Overall, SMGs outside quasar halos share similar physical properties with those in the field, but combining data from other studies reveals depleted gas fractions within quasar halos. This suggests that dense environments significantly impact massive star-forming galaxies only within halo scales at cosmic noon. Additionally, spatial analyses of 15 SMGs indicate they trace large-scale structures, possibly filamentary or elongated pancake-like, with a scale height of 2-5\,cMpc. Our measured distributions and densities of star-formation rates align with models, though likely represent lower limits.