Litcius/Paper detail

Improved treatments of the ionizing photon mean free path in seminumerical simulations of reionization

Frederick B. Davies, Steven R. Furlanetto

2022Monthly Notices of the Royal Astronomical Society23 citationsDOIOpen Access PDF

Abstract

ABSTRACT Efficient and accurate simulations of the reionization epoch are crucial to exploring the vast uncharted parameter space that will soon be constrained by measurements of the 21-cm power spectrum. One of these parameters, Rmax, is meant to characterize the absorption of photons by residual neutral gas inside of ionized regions, but has historically been implemented in a very simplistic fashion acting only as a maximum distance that ionizing photons can travel. We leverage the correspondence between excursion set methods and the integrated flux from ionizing sources to define two physically motivated prescriptions of the mean free path (MFP) of ionizing photons that smoothly attenuate the contribution from distant sources. Implementation of these methods in seminumerical reionization codes requires only modest additional computational effort due to the fact that spatial filtering is still performed on scales larger than the characteristic absorption distance. We find that our smoothly defined MFP prescriptions more effectively suppress large-scale structures in the ionization field in seminumerical reionization simulations compared to the standard Rmax approach, and the magnitude of the MFP modulates the power spectrum in a much smoother manner. We show that this suppression of large-scale power is significant enough to be relevant for upcoming 21-cm power spectrum observations. Finally, we show that in our model, the MFP plays a larger role in regulating the reionization history than in models using Rmax.

Topics & Concepts

ReionizationPhysicsMean free pathPhotonAstrophysicsIonizationComputational physicsGalaxyRedshiftOpticsScatteringQuantum mechanicsIonMillimeter-Wave Propagation and ModelingRadio Astronomy Observations and TechnologyPlant Pathogens and Resistance