A hidden reionization prior biases cosmological inference

Abstract

Precision cosmology assumes that cosmic reionization was a single smooth transition. We show that this assumption is in tension with current observations: the Planck optical depth, patchy kinetic Sunyaev--Zel'dovich (PkSZ)limits from SPT and ACT, and the Lyα forest endpoint cannot be simultaneously reproduced by any viable monotonic ionization history. Non-parametric reconstructions and Planck EE polarization provide independent support for an additional ionization component at z 12. Incorporating this early phase relaxes the upper bound on the summed neutrino mass to Σ mν< 0.39~eV (95\% CL) and shifts σ8 toward values preferred by weak-lensing surveys, both consequences of the standard As--τe degeneracy. These shifts arise from relaxing a hidden prior on reionization shape rather than from new physics, and identify reionization shape as an implicit prior in cosmological inference. Next generation of CMB and 21~cm experiments will be able to test this directly,which will convert what has been an unflagged systematic on σ8 and Σ mν into a quantified statistical uncertainty.