Statistical Test of Distance--Duality Relation with Type Ia Supernovae and Baryon Acoustic Oscillations

Abstract

We test the distance--duality relation η dL / [ (1 + z)2 dA ] = 1 between cosmological luminosity distance (dL) from the JLA SNe Ia compilation (arXiv:1401.4064) and angular-diameter distance (dA) based on Baryon Oscillation Spectroscopic Survey (BOSS; arXiv:1607.03155) and WiggleZ baryon acoustic oscillation measurements (arXiv:1105.2862, arXiv:1204.3674). The dL measurements are matched to dA redshift by a statistically consistent compression procedure. With Monte Carlo methods, nontrivial and correlated distributions of η can be explored in a straightforward manner without resorting to a particular evolution template η(z). Assuming independent constraints on cosmological parameters that are necessary to obtain dL and dA values, we find 9% constraints consistent with η = 1 from the analysis of SNIa + BOSS and an 18% bound results from SNIa + WiggleZ. These results are contrary to previous claims that η < 1 has been found close to or above the 1 σ level. We discuss the effect of different cosmological parameter inputs and the use of the apparent deviation from distance--duality as a proxy of systematic effects on cosmic distance measurements. The results suggest possible systematic overestimation of SNIa luminosity distances compared with dA data when a Planck CDM cosmological parameter inference (arXiv:1502.01589) is used to enhance the precision. If interpreted as an extinction correction due to a gray dust component, the effect is broadly consistent with independent observational constraints.