Skipping the rungs! Calibrating distance indicators through their clustering with galaxies

Abstract

We show that angular cross-correlations between distance indicators and galaxy redshift catalogues, when interpreted within an assumed cosmological model, can constrain potential biases in distance measurements induced by calibration systematics. As a test case, we consider a simple scenario in which a constant calibration offset ΔM shifts all observed distances by a multiplicative factor, and we produce Fisher forecasts for the constraining power on ΔM and H0 from existing and upcoming surveys. In our most optimistic scenario, based on the expected number of SN Ia observed by LSST and the DESI final data release, we find σΔM ≈ 0.05 and σH0 ≈ 1.81~km~s-1~Mpc-1. This has important implications for the Hubble tension, since explaining the discrepancy purely as a calibration systematic in low-z measurements would require ΔM ≈ 0.13.

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