Results from EDGES High-Band: II. Constraints on Parameters of Early Galaxies

Abstract

We use the sky-average spectrum measured by EDGES High-Band (90-190 MHz) to constrain parameters of early galaxies independent of the absorption feature at 78~MHz reported by Bowman et al. (2018). These parameters represent traditional models of cosmic dawn and the epoch of reionization produced with the 21cmFAST simulation code (Mesinger & Furlanetto 2007, Mesinger et al. 2011). The parameters considered are: (1) the UV ionizing efficiency (ζ), (2) minimum halo virial temperature hosting efficient star-forming galaxies (T min vir), (3) integrated soft-band X-ray luminosity (L X\,<\,2\,keV/ SFR), and (4) minimum X-ray energy escaping the first galaxies (E0), corresponding to a typical H I column density for attenuation through the interstellar medium. The High-Band spectrum disfavors high values of T min vir and ζ, which correspond to signals with late absorption troughs and sharp reionization transitions. It also disfavors intermediate values of L X\,<\,2\,keV/ SFR, which produce relatively deep and narrow troughs within the band. Specifically, we rule out 39.4<10(L X\,<\,2\,keV/ SFR)<39.8 (95\% C.L.). We then combine the EDGES High-Band data with constraints on the electron scattering optical depth from Planck and the hydrogen neutral fraction from high-z quasars. This produces a lower degeneracy between ζ and T min vir than that reported in Greig & Mesinger (2017a) using the Planck and quasar constraints alone. Our main result in this combined analysis is the estimate 4.5~≤ 10(T min vir/ K)≤~5.7 (95\% C.L.). We leave for future work the evaluation of 21~cm models using simultaneously data from EDGES Low- and High-Band.