Topology of Reionisation times: concepts, measurements and comparisons to gaussian random field predictions - Archive ouverte HAL
Article Dans Une Revue Astronomy and Astrophysics - A&A Année : 2023

Topology of Reionisation times: concepts, measurements and comparisons to gaussian random field predictions

Résumé

In the next decade, radio telescopes like the Square Kilometer Array (SKA) will explore the Universe at high redshift, and particularly during the Epoch of Reionisation (EoR). The first structures emerged during this epoch, and their radiations have reionised the previously cold and neutral gas of the Universe creating ionised bubbles that percolate at the end of the EoR (at a redshift of approximately 6). SKA will produce 2D images of the distribution of the neutral gas at many redshifts, pushing us to develop tools and simulations to understand its properties. This paper aims at measuring topological statistics of the EoR in the so-called "reionisation time" fields from both cosmological and semi-analytical simulations. This field informs us about the time of reionisation of the gas at each position. We also compare these measurements with analytical predictions obtained within the gaussian random field (GRF) theory. The gaussian random fields (GRFs) theory allows us to compute many statistics of a field: probability distribution functions (PDFs) of the field or its gradient, isocontour length, critical point distributions, and skeleton length. We compare these theoretical predictions to measurements made on reionisation time fields extracted from an EMMA and a 21cmFAST simulations at 1 a cMpc/h resolution. We also compared our results to GRFs generated from the fitted power spectra of the simulation maps. Both EMMA and 21cmFAST reionisation time fields (treion(r)) are close to be gaussian fields, in contrast with the 21 cm, density or ionisation fraction that are all proven to be non-gaussian. Only accelerating ionisation fronts at the end of the EoR seem to be a cause of small non-gaussianities in treion(r). Overall our results indicate that an analytical description of the reionisation percolation can be reasonably made within the framework of GRF theory.
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hal-03815520 , version 1 (15-10-2023)

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Emilie Thélie, Dominique Aubert, Nicolas Gillet, Pierre Ocvirk. Topology of Reionisation times: concepts, measurements and comparisons to gaussian random field predictions. Astronomy and Astrophysics - A&A, 2023, 672, pp.A184. ⟨10.1051/0004-6361/202244977⟩. ⟨hal-03815520⟩
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