ODIN: Clustering Properties of Lyα Blobs at z 2.4 and 3.1

Abstract

Spatially extended Lyα nebulae, known as Lyα blobs (LABs), are a rare population at z > 2 that are thought to trace proto-groups or the progenitors of massive galaxies in the present-day universe. However, their dark matter halo properties (e.g., halo mass) are still uncertain due to their rarity and strong field-to-field variation. The One-hundred-deg2 DECam Imaging in Narrowbands (ODIN) survey has discovered 103 and 112 LABs in the extended (9~) COSMOS field at z2.4 and 3.1, respectively, enabling estimation of their bias and host halo masses through clustering analysis. We measure the angular auto-correlation functions (ACFs) of LABs and derive galaxy bias factors of b = 4.00.8 and 3.80.7, corresponding to minimum halo masses of 2.8+3.0-1.8 and 0.7+0.8-0.5×1012~M and median halo masses of 4.2+3.8-2.5 and 1.1+1.1-0.7×1012~M at z2.4 and 3.1, respectively. LABs occupy 11+39-8\% and 3+9-2\% of all dark matter halos above these minimum halo masses. These findings suggest that LABs inhabit massive dark matter halos, likely tracing proto-group environments that evolve into present-day massive halos (1013~M), where massive elliptical galaxies or galaxy groups reside, by z=0.