JADES: Measuring reionization properties using Lyman-alpha emission
Abstract
Ly is the transition to the ground state from the first excited state of hydrogen (the most common element). Resonant scattering of this line by neutral hydrogen greatly impedes its emergence from galaxies, so the fraction of galaxies emitting Ly is a tracer of the neutral fraction of the intergalactic medium (IGM), and thus the history of reionisation. In previous works, we used early JWST/NIRSpec data from the JWST Advanced Deep Extragalactic Survey (JADES) to classify and characterise Ly emitting galaxies (LAEs). This survey is approaching completion, and the current sample is nearly an order of magnitude larger. From a sample of 795 galaxies in JADES at , we find evidence for Ly emission in 150sources. We reproduce the previously found correlation between Ly escape fraction () - Ly rest-frame equivalent width () and the negative correlation between Ly velocity offset - . Both and decrease with redshift (), indicating the progression of reionisation on a population scale. Our data are used to demonstrate an increasing IGM transmission of Ly from . We measure the completeness-corrected fraction of LAEs (\xlya) from . An application of these \xlya values to the results of previously utilised semi-analytical models suggests a high neutral fraction at (). Using an updated fit to the intrinsic distribution of results in a lower value in agreement with current works (). This sample of LAEs will be paramount for unbiased population studies of galaxies in the EoR.
Cite
@article{arxiv.2409.06405,
title = {JADES: Measuring reionization properties using Lyman-alpha emission},
author = {Gareth C. Jones and Andrew J. Bunker and Aayush Saxena and Santiago Arribas and Rachana Bhatawdekar and Kristan Boyett and Alex. J. Cameron and Stefano Carniani and Stephane Charlot and Emma Curtis-Lake and Kevin Hainline and Benjamin D. Johnson and Nimisha Kumari and Michael V. Maseda and Hans-Walter Rix and Brant E. Robertson and Sandro Tacchella and Hannah Übler and Christina C. Williams and Chris Willott and Joris Witstok and Yongda Zhu},
journal= {arXiv preprint arXiv:2409.06405},
year = {2024}
}
Comments
26 pages, 22 figures, accepted for publication in MNRAS