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Cosmological parameters derived from the final <i>Planck</i> data release (PR4)

M. TristramIJCLab - Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (Bât. 100 et 200, 15 rue Georges Clémenceau 91405 Orsay - France)A. J. BandayIRAP - Institut de recherche en astrophysique et planétologie (9 avenue Colonel Roche 31028 Toulouse - France)M. DouspisIAS - Institut d'astrophysique spatiale (Bâtiment 121 91405 ORSAY CEDEX - France)X. GarridoIJCLab - Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (Bât. 100 et 200, 15 rue Georges Clémenceau 91405 Orsay - France)K. M. GórskiS. Henrot–VersilléIJCLab - Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (Bât. 100 et 200, 15 rue Georges Clémenceau 91405 Orsay - France)L. T. HergtS. IlićCNES - Centre National d'Études Spatiales [Toulouse] (18 avenue Edouard Belin 31401 Toulouse - France)Reijo KeskitaloG. LagacheLAM - Laboratoire d'Astrophysique de Marseille (Pôle de l'Étoile Site de Château-Gombert 38, rue Frédéric Joliot-Curie 13388 Marseille cedex 13 - France)C. R. LawrenceBruce PartridgeD. Scott
2023en
ABI

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We present cosmological parameter constraints using maps from the last Planck data release (PR4). In particular, we detail an upgraded version of the cosmic microwave background likelihood, HiLLiPoP , that is based on angular power spectra and relies on a physical modeling of the foreground residuals in the spectral domain. This new version of the likelihood retains a larger sky fraction (up to 75%) and uses an extended multipole range. Using this likelihood, along with low- ℓ measurements from LoLLiPoP , we derived constraints on ΛCDM parameters that are in good agreement with previous Planck 2018 results, but with smaller uncertainties by 10% to 20%. We demonstrate that the foregrounds can be accurately described in the spectral domain, with a negligible impact on ΛCDM parameters. We also derived constraints on single-parameter extensions to ΛCDM, including A L , Ω K , N eff , and ∑ m ν . Noteworthy results from this updated analysis include a lensing amplitude value of A L = 1.039 ± 0.052, which is more closely aligned with theoretical expectations within the ΛCDM framework. Additionally, our curvature measurement, Ω K = −0.012 ± 0.010, is now fully consistent with a flat universe and our measurement of S 8 is closer to the measurements derived from large-scale structure surveys (at the 1.5 σ level). We also added constraints from PR4 lensing, making this combination the most tightly constrained data set currently available from Planck . Additionally, we explored the addition of baryon acoustic oscillation data, which tightens the limits on some particular extensions to the standard cosmology.

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