The Atacama Cosmology Telescope: DR6 Gravitational Lensing and SDSS BOSS cross-correlation measurement and constraints on gravity with the EG statistic

Abstract

We derive new constraints on the EG statistic as a test of gravity, combining the CMB lensing map estimated from Data Release 6 (DR6) of the Atacama Cosmology Telescope with SDSS BOSS CMASS and LOWZ galaxy data. We develop an analysis pipeline to measure the cross-correlation between CMB lensing maps and galaxy data, following a blinding policy and testing the approach through null and consistency checks. By testing the equivalence of the spatial and temporal gravitational potentials, the EG statistic can distinguish from alternative models of gravity. We find EG= 0.31+0.06-0.05 for ACT and CMASS data at 68.28\% confidence level, and EG = 0.49+0.14-0.11 for ACT and LOWZ. Systematic errors are estimated to be 3\% and 4\% respectively. Including CMB lensing information from Planck PR4 results in EG = 0.34+0.05-0.05 with CMASS and EG= 0.43+0.11-0.09 with LOWZ. These are consistent with predictions for the model that best fits the Planck CMB anisotropy and SDSS BOSS BAO, where EG GR (z eff = 0.555) = 0.401 0.005 for CMB lensing combined with CMASS and EG GR (z eff = 0.316) = 0.4520.005 combined with LOWZ. We also find EG to be scale independent, with PTE >5\%, as predicted by general relativity. The methods developed in this work are also applicable to improved future analyses with upcoming spectroscopic galaxy samples and CMB lensing measurements.

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