New multiprobe analysis of modified gravity and evolving dark energy

Abstract

We study the (w0, \, wa) parametrization of the dark energy (DE) equation of state, with and without the effective field theory of dark energy (EFTofDE) framework to describe the DE perturbations, parametrized here by the braiding parameter αB and the running of the Planck mass αM. We combine the EFTofLSS full-shape analysis of the power spectrum and bispectrum of BOSS data with the tomographic angular power spectra Cgg, C g, CTg and CT, where g, and T stand for the DESI luminous red galaxy map, Planck PR4 lensing map and Planck PR4 temperature map, respectively. To analyze these angular power spectra, we go beyond the Limber approximation, allowing us to include large-scale data in Cgg. The combination of all these probes with Planck PR4, DESI DR2 BAO and DES Y5 improves the constraint on the 2D posterior distribution of \w0, \, wa\ by 50 \% and increases the preference for evolving dark energy over from 3.8 σ to 4.6 σ. When we remove BAO and supernovae data, we obtain a hint for evolving dark energy at 2.3 σ. Regarding the EFTofDE parameters, we improve the constraints on αB and αM by 40 \% and 50 \% respectively, finding results compatible with general relativity at 2 σ. We show that these constraints do not depend on the choice of the BAO and supernovae likelihoods.

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