Chasing the Beginning of Reionization in the JWST Era

Chasing the Beginning of Reionization in the JWST Era

Recent JWST observations at z  > 6 may imply galactic ionizing photon production above prior expectations. Under observationally motivated assumptions about escape fractions, these suggest a z  ~ 8–9 end to reionization, in tension with the z  < 6 end required by the Ly α forest. In this work,...

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Bibliographic Details
Main Authors: Christopher Cain, Garett Lopez, Anson D’Aloisio, Julian B. Muñoz, Rolf A. Jansen, Rogier A. Windhorst, Nakul Gangolli
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Astrophysical Journal
Subjects:
Reionization
Intergalactic medium
Quasar absorption line spectroscopy
Lyα forest
Cosmic microwave background radiation
Galaxy evolution
Online Access:https://doi.org/10.3847/1538-4357/ada152
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Summary:Recent JWST observations at z  > 6 may imply galactic ionizing photon production above prior expectations. Under observationally motivated assumptions about escape fractions, these suggest a z  ~ 8–9 end to reionization, in tension with the z  < 6 end required by the Ly α forest. In this work, we use radiative transfer simulations to understand what different observations tell us about when reionization ended and when it started. We consider a model that ends too early ( z _end  ≈ 8) alongside two more realistic scenarios with z _end  ≈ 5: one starting late ( z  ~ 9) and another early ( z  ~ 13). We find that the latter requires up to an order-of-magnitude evolution in galaxy ionizing properties at 6 <  z  < 12, perhaps in tension with measurements of ξ _ion by JWST, which indicate little evolution. We study how these models compare to recent measurements of the Ly α forest opacity, mean free path, intergalactic medium thermal history, visibility of z  > 8 Ly α emitters, and the patchy kSZ signal from the cosmic microwave background (CMB). We find that neither of the late-ending scenarios is strongly disfavored by any single data set. However, a majority of observables, spanning several distinct types of observations, prefer a late start. Not all probes agree with this conclusion, hinting at a possible lack of concordance arising from deficiencies in observations and/or theoretical modeling. Observations by multiple experiments (including JWST, Roman, and CMB-S4) in the coming years will establish a concordance picture of reionization's beginning or uncover such deficiencies.
ISSN:1538-4357

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