Behavior of the Lyα Damping Wings as a Function of Reionization Topology

Behavior of the Lyα Damping Wings as a Function of Reionization Topology

The damping wing signatures in high-redshift quasars have proven instrumental in studying the epoch of reionization. With the upcoming Euclid mission set to discover many more quasars, it is crucial to explore what this new set of quasars might reveal not only about the reionization history, but als...

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Bibliographic Details
Main Authors: Yash M. Sharma, Frederick B. Davies, Prakash Gaikwad, Fahad Nasir, Sarah E. I. Bosman
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Astrophysical Journal
Subjects:
Intergalactic medium
Reionization
Quasars
Online Access:https://doi.org/10.3847/1538-4357/adbe6d
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Summary:The damping wing signatures in high-redshift quasars have proven instrumental in studying the epoch of reionization. With the upcoming Euclid mission set to discover many more quasars, it is crucial to explore what this new set of quasars might reveal not only about the reionization history, but also about its topology. The topology should influence the shape and variation of quasar-damping wing signals across sightlines. We use 21cmFAST to generate patchy reionization models in cosmological volumes with diverse astrophysical parameters for the ionizing sources. We examine the median and the sightline-to-sightline variation (ΔSW _68 ) for an ensemble of damping wing signals. We find that the neutral fraction x _H I , quasar lifetime t _q , quasar host halo mass M _qso , and minimum dark-matter halo mass (that can support star formation) ${M}_{\min }$ significantly impact the median signal. Parameters tied to the reionization topology, like x _H I and ${M}_{\min }$ , strongly affect ΔSW _68 , compared with t _q . Our findings highlight that quasar damping wings are sensitive to ${M}_{\min }$ , a key variable linking reionization topology, history, and feedback processes. We also explore the convergence of damping wing signals and ionized bubble sizes with box size. We present a suite of models to assess the ability of future quasar samples to constrain astrophysical model parameters and the additional systematic uncertainty on the neutral fraction incurred when fixed to a single fiducial value.
ISSN:1538-4357

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