Spectroscopic Confirmation of two Extremely Massive Protoclusters BOSS1244 and BOSS1542 at z=2.24

Abstract

We present spectroscopic confirmation of two new massive galaxy protoclusters at z=2.240.02, BOSS1244 and BOSS1542, traced by groups of Coherently Strong Lyα Absorption (CoSLA) systems imprinted in the absorption spectra of a number of quasars from the SDSS III and identified as overdensities of narrowband-selected Hα emitters (HAEs). Using MMT/MMIRS and LBT/LUCI near-infrared (NIR) spectroscopy, we confirm 46 and 36 HAEs in the BOSS1244 and BOSS1542 fields, respectively. BOSS1244 displays a South-West (SW) component at z=2.2300.002 and another North-East (NE) component at z=2.2460.001 with the line-of-sight velocity dispersions of 405202 km s-1 and 37799 km s-1, respectively. Interestingly, we find that the SW region of BOSS1244 contains two substructures in redshift space, likely merging to form a larger system. In contrast, BOSS1542 exhibits an extended filamentary structure with a low velocity dispersion of 24732 km s-1 at z=2.2410.001, providing a direct confirmation of a large-scale cosmic web in the early Universe. The galaxy overdensities δ g on the scale of 15 cMpc are 22.94.9, 10.92.5, and 20.53.9 for the BOSS1244 SW, BOSS1244 NE, and BOSS1542 filament, respectively. They are the most overdense galaxy protoclusters (δ g>20) discovered to date at z>2. These systems are expected to become virialized at z0 with a total mass of M SW=(1.590.20)×1015 M, M NE =(0.830.11)×1015 M and M filament=(1.420.18)×1015 M, respectively. Together with BOSS1441 described in Cai et al. (2017a), these extremely massive overdensities at z=2-3 exhibit different morphologies, indicating that they are in different assembly stages in the formation of early galaxy clusters.