Modified gravity constraints with Planck ISW-lensing bispectrum

Abstract

We present updated constraints on modified gravity by including the Integrated Sachs-Wolfe (ISW) effect from CMB lensing-CMB temperature cross-correlations, based on the latest Planck PR4 maps. Utilizing the Effective Field Theory of dark energy approach and adopting the w0waCDM background cosmological model, we find that including the CMB ISW lensing cross-correlations tighten constraints on the modified gravity parameters by approximately 20\%, reducing the viable parameter space by 40-80\%. We derive constraints from Planck CMB, Planck and ACT CMB lensing, DESI DR1 BAO, CMB ISW-lensing, and type Ia supernovae (SN Ia) data. The constraints on the EFT parameters controlling the kinetic braiding and non-minimal coupling are consistent with General Relativity (GR) at the 95\% CL. In particular, we obtain a bound on the kinetic braiding parameter, cB < 1.2 at 95\% CL. In the w0-wa parameter space, our results imply a crossing of the phantom divide, w=-1. The modified gravity model shows a mild preference over at the 1.8σ, 2.6σ and 3.2σ levels for the combinations with Pantheon+, Union3 and DESY5 supernova datasets. We find that using the latest HiLLiPoP+LoLLiPoP likelihoods alleviates the departure of modified gravity parameters from the GR-values compared to results using Planck 2018 data. This paper underlines the importance of the ISW lensing probe in constraining late-time modifications of gravity.

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