Revealing Intrinsic Flat Biases with Standardizable Candles

Abstract

Emerging high redshift cosmological probes, in particular quasars (QSOs), show a preference for larger matter densities, m ≈ 1, within the flat framework. Here, using the Risaliti-Lusso relation for standardizable QSOs, we demonstrate that the QSOs recover the same Planck- Universe as Type Ia supernovae (SN), m ≈ 0.3 at lower redshifts 0 < z 0.7, before transitioning to an Einstein-de Sitter Universe (m =1) at higher redshifts z 1. We illustrate the same trend, namely increasing m and decreasing H0 with redshift, in SN but poor statistics prevent a definitive statement. We explain physically why the trend is expected in the flat cosmology, illustrate the intrinsic bias and non-Gaussian tails with mock Pantheon data, and identify a similar trend in BAO below z=1. Our results highlight an intrinsic bias in the flat Universe, whereby m increases, H0 decreases and S8 increases with effective redshift, thus providing a new perspective on tensions; even in a Planck- Universe the current tensions might have been expected.