Constraining exotic high-z reionization histories with Gaussian processes and the Cosmic Microwave Background

Abstract

The large-angle polarization anisotropies in the Cosmic Microwave Background (CMB) arise from Thomson scattering of CMB photons off free electrons in the post-recombination Universe. In the standard cold dark matter cosmological model, the free electron density increases at redshifts z 10 as the first stars form, reionizing the intergalactic medium. We use Gaussian processes to perform a model-independent reconstruction of the cosmic reionization history constrained by Planck CMB data. Our approach recovers the standard reionization at z 10 and places stringent limits on any additional high-z reionization. From this reconstruction, we define a new derived parameter, the high-redshift contribution to the CMB optical depth, τhighz, whose posterior distribution provides robust constraints on exotic energy injection scenarios. We demonstrate this for decaying dark matter with particle masses in the range O(1\,MeV). A companion paper applies this framework to multi-axion models. All data and code are publicly available at: https://github.com/Cheng-Hanyu/CLASSreiogprgithub.com/Cheng-Hanyu/CLASS\reio\gpr.