The Impact of Galaxy Overdensities and Ionized Bubbles on Lyα Emission at z7.0-8.5

Abstract

Lyα spectroscopy with JWST is opening a new window on the sizes of ionized bubbles through the reionization epoch. Theoretical expectations suggest typical bubble radii should be 0.6-1.5 pMpc at z 7, assuming neutral hydrogen fractions of the intergalactic medium in the range x HI=0.5-0.7. Here we investigate this picture using JWST to characterize the environment and Lyα emission of 292 galaxies at 7.0<z<8.5 across 5 fields spanning a comoving volume of 1.3×106 Mpc3. If the reionization predictions are correct, we should see overdensities and strong Lyα emission clustered in redshift windows of dz=0.04-0.08 and angular scales of 5-11 arcmin. We detect Lyα emission in 36 out of 292 galaxies, including nine new Lyα detections, two of which (in the UDS field) show extremely large equivalent widths (EW = 200-78+50 A and 284-75+56 A). We identify 13 significant (4-11×) galaxy overdensities using redshifts from NIRCam grism and NIRSpec. Strong Lyα emitters are almost uniformly found in the overdensities, with nearly all located between the center and back of the structures. The overdensities that host the strong Lyα emitters span typical line-of-sight distances (dz 0.14) and angular scales ( 8 arcmin) that are comparable to the predicted bubble sizes at z 7. We discuss evidence that the EGS is mostly ionized along a 24 pMpc sightline at z 7.0-7.6, based on the presence of 3 overdense structures and 10 Lyα emitters in this volume, and find such a large ionized region would pose tension with standard reionization models.