http://arxiv.org/abs/2201.07249
Upper limits from the current generation of interferometers targeting 21-cm emission from high redshifts have recently begun to rule out physically realistic, though still extreme, models of the Epoch of Reionization (EoR). While inferring the detailed properties of the first galaxies is one of the most important motivations for 21-cm measurements, they can also provide useful constraints on the properties of the intergalactic medium (IGM). Motivated by this, we build a simple, phenomenological model for 21-cm fluctuations that works directly in terms of IGM properties, which bypasses the computationally expensive 3-D semi-numerical modeling generally employed in inference pipelines and avoids explicit assumptions about galaxy properties. The key simplifying assumptions are that (i) the ionization field is binary, and composed of spherical bubbles with an abundance described well by a parametric bubble size distribution, and (ii) that the spin temperature of the “bulk” IGM outside bubbles is uniform. Despite the simplicity of the model, the mean ionized fraction and spin temperature of the IGM recovered from mock 21-cm power spectra generated with 21cmFAST are in qualitative agreement with the true input values. This suggests that it is possible to obtain comparable constraints on the IGM from 21-cm measurements using models with very different assumptions, parameters, and priors. Our approach will thus be complementary to semi-numerical models as upper limits continue to improve in the coming years.
J. Mirocha, J. Muñoz, S. Furlanetto, et. al.
Thu, 20 Jan 22
30/77
Comments: 23 pages, 14 figures, submitted to MNRAS, code publicly available at this https URL