Probing the Cosmic Reionization History with JWST: Gunn-Peterson and Lyα Damping Wing Absorption at 4.5 < z < 13

Abstract

We present a statistical analysis of Lyα absorption using 581 galaxies at z=4.5--13 observed with multiple JWST/NIRSpec spectroscopy programs, including JADES, UNCOVER, CEERS, and GO/DDT. We carefully construct composite spectra binned by redshift with homogeneous UV properties (UV magnitudes, UV slopes, and Lyα equivalent widths) and identify significant Lyα forest signals in galaxies at z5--6, which diminish toward higher redshifts. We also find UV continuum breaks at rest-frame 1216 that soften beyond z6, confirming the effects of cosmic reionization through a self-consistent transition from Gunn-Peterson to Lyα damping wing absorption in galaxies. Fair comparisons of composite spectra with matched UV magnitudes and slopes across redshift reveal that UV-faint galaxies clearly show stronger Lyα absorption than UV-bright galaxies towards high redshift, providing insights into the topological evolution of reionization. We estimate Lyα transmission at the Gunn-Peterson trough and Lyα damping wing absorption by comparing the galaxy spectra to low-z (z2-5) galaxy templates that include galactic and circumgalactic absorption and Lyα emission. Using these measurements together with reionization simulations, we derive volume average neutral hydrogen fractions of x HI = 0.00+0.12-0.00, 0.25+0.10-0.20, 0.65+0.27-0.35, 1.00+0.00-0.20, and 1.00+0.00-0.40 at z5, 6, 7, 9, and 10, respectively. These values broadly align with a reionization history characterized by a rapid transition around z7--8, consistent with Lyα emitter observations. While the physical driver of this rapid reionization remains unclear, it may involve the emergence of hidden AGN populations and/or the onset of Lyman-continuum escape from galaxies.

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