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Published April 2023 | Published
Journal Article Open

The production of ionizing photons in UV-faint z ∼ 3–7 galaxies

Prieto-Lyon, Gonzalo ORCID icon
Strait, Victoria ORCID icon
Mason, Charlotte A. ORCID icon
Brammer, Gabriel ORCID icon
Caminha, Gabriel B. ORCID icon
Mercurio, Amata ORCID icon
Acebron, Ana ORCID icon
Bergamini, Pietro ORCID icon
Grillo, Claudio ORCID icon
Rosati, Piero ORCID icon
Vanzella, Eros ORCID icon
Castellano, Marco ORCID icon
Merlin, Emiliano ORCID icon
Paris, Diego ORCID icon
Boyett, Kristan ORCID icon
Calabrò, Antonello ORCID icon
Morishita, Takahiro ORCID icon
Mascia, Sara ORCID icon
Pentericci, Laura ORCID icon
Roberts-Borsani, Guido ORCID icon
Roy, Namrata ORCID icon
Treu, Tommaso ORCID icon
Vulcani, Benedetta ORCID icon

Abstract

Aims. The demographics of the production and escape of ionizing photons from UV-faint early galaxies is a key unknown that has hindered attempts to discover the primary drivers of reionization. With the advent of JWST, it is finally possible to observe the rest-frame optical nebular emission from individual sub-L*z > 3 galaxies to measure the production rate of ionizing photons, ξ_(ion). Methods. Here we study a sample of 370 z ∼ 3 − 7 galaxies spanning −23 < M_(UV) < −15.5 (median M_(UV) ≈ −18) with deep multiband HST and JWST/NIRCam photometry that covers the rest-UV to the optical from the GLASS and UNCOVER JWST surveys. Our sample includes 102 galaxies with Lyman-alpha emission detected in MUSE spectroscopy. We used Hα fluxes inferred from NIRCam photometry to estimate the production rate of ionizing photons that do not escape these galaxies, ξ_(ion)(1 − f_(esc)). Results. We find median log₁₀_ξ(ion)(1 − f_(esc)) = 25.33 ± 0.47, with a broad intrinsic scatter of 0.42 dex, which implies a broad range of galaxy properties and ages in our UV-faint sample. Galaxies detected with Lyman-alpha have ∼0.1 dex higher ξ_(ion)(1 − f_(esc)), which is explained by their higher Hα equivalent width distribution; this implies younger ages and higher specific star formation rates and, thus, more O/B stars. We find significant trends of increasing ξ_(ion)(1 − f_(esc)) with increasing Hα equivalent width, decreasing UV luminosity, and decreasing UV slope; this implies that the production of ionizing photons is enhanced in young galaxies with assumed low metallicities. We find no significant evidence for sources with very high ionizing escape fractions (f_(esc) > 0.5) in our sample based on their photometric properties, even amongst the Lyman-alpha-selected galaxies. Conclusions. This work demonstrates that considering the full distribution of ξ_(ion) across galaxy properties is important for assessing the primary drivers of reionization.

Additional Information

© The Authors 2023. Open Access article, published by EDP Sciences, under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. This article is published in open access under the Subscribe to Open model. Subscribe to A&A to support open access publication. We thank the co-PIs Ivo Labbé and Rachel Bezanson for the conception and public availability of the UNCOVER JWST Program (GO-2561), which made much of this work possible. We thank Mengtao Tang for sharing data the emission line catalog from Tang et al. (2019). This work is based on observations collected at the European Southern Observatory under ESO programmes 109.24EZ.001 and 094.A-0115. This work is based on NASA/ESA HST and JWST data which were obtained from the Mikulski Archive for Space Telescopes at the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS 5-03127 for JWST. The HST observations are associated with programs GO/DD-17231, GO/DD-13495, GO-15117, GO-11689, GO-11386, GO-13389, GO-15940 and SNAP-16729. The JWST observations are associated with programs JWST-ERS-1324 and GO-2561. C.M. and G.P. acknowledge support by the VILLUM FONDEN under grant 37459. The Cosmic Dawn Center (DAWN) is funded by the Danish National Research Foundation under grant DNRF140. We acknowledge financial support from NASA through grant JWST-ERS-1324. We acknowledge support from the INAF Large Grant 2022 "Extragalactic Surveys with JWST" (PI Pentericci), and support through grants PRIN-MIUR 2017WSCC32, 2020SKSTHZ. This research is supported in part by the Australian Research Council Centre of Excellence for All Sky Astrophysics in 3 Dimensions (ASTRO 3D), through project number CE170100013.

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Identifiers Funding Dates Caltech Custom Metadata
Created:
August 22, 2023
Modified:
October 20, 2023