The progress of cosmic reionization depends on the presence of over-dense regions that act as photon sinks. Such sinks may slow down ionization fronts as compared to a uniform intergalactic medium (IGM) by increasing the clumping factor. We present simulations of reionization in a clumpy IGM resolving even the smallest sinks. The simulations use a novel, spatially adaptive and efficient radiative transfer implementation in the SWIFT SPH code, based on the two-moment method. We find that photon sinks can increase the clumping factor by a factor of ~10 during the first ~100 Myrs after the passage of an ionization front. After this time, the clumping factor decreases as the smaller sinks photoevaporate. Altogether, photon sinks increase the number of photons required to reionize the Universe by a factor of ? ~2, as compared to the homogeneous case. The value of ? also depends on the emissivity of the ionizing sources.

Keung Chan, T., Benitez Llambay, A., Theuns, T., Frenk, C. (2023). Simulations of the reionization of the clumpy intergalactic medium with a novel particle-based two-moment radiative transfer scheme. In Proceedings of the International Astronomical Union (pp.15-20) [10.1017/S1743921322001235].

Simulations of the reionization of the clumpy intergalactic medium with a novel particle-based two-moment radiative transfer scheme

Benitez Llambay, A;
2023

Abstract

The progress of cosmic reionization depends on the presence of over-dense regions that act as photon sinks. Such sinks may slow down ionization fronts as compared to a uniform intergalactic medium (IGM) by increasing the clumping factor. We present simulations of reionization in a clumpy IGM resolving even the smallest sinks. The simulations use a novel, spatially adaptive and efficient radiative transfer implementation in the SWIFT SPH code, based on the two-moment method. We find that photon sinks can increase the clumping factor by a factor of ~10 during the first ~100 Myrs after the passage of an ionization front. After this time, the clumping factor decreases as the smaller sinks photoevaporate. Altogether, photon sinks increase the number of photons required to reionize the Universe by a factor of ? ~2, as compared to the homogeneous case. The value of ? also depends on the emissivity of the ionizing sources.
slide + paper
cosmology:early universe; galaxies:intergalactic medium; radiative transfer;
English
IAU Symposium 362 - The predictive power of Computational Astrophysics as a Discovery Tool
2021
Bisikalo, D; Wiebe, D; Boily, C
Proceedings of the International Astronomical Union
2023
16
S362
15
20
none
Keung Chan, T., Benitez Llambay, A., Theuns, T., Frenk, C. (2023). Simulations of the reionization of the clumpy intergalactic medium with a novel particle-based two-moment radiative transfer scheme. In Proceedings of the International Astronomical Union (pp.15-20) [10.1017/S1743921322001235].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/402595
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