Cosmological inference from the EFTofLSS: the eBOSS QSO full-shape analysis

Abstract

We present cosmological results inferred from the effective-field theory (EFT) analysis of the full-shape of eBOSS quasars (QSO) power spectrum. We validate our analysis pipeline against simulations, and find overall good agreement between the analyses in Fourier and configuration space. Keeping the baryon abundance and the spectral tilt fixed, we reconstruct at 68\% CL the fractional matter abundance m, the reduced Hubble constant h, and the clustering amplitude σ8, to respectively m=0.327 0.035, h=0.655 0.034, and σ8=0.880 0.083 from eBOSS QSO alone. These constraints are consistent at 1.8σ with the ones from Planck and from the EFT analysis of BOSS full-shape. Interestingly S8 reconstructed from eBOSS QSO is slightly higher than that deduced from Planck and BOSS, although statistically consistent. In combination with the EFT likelihood of BOSS, supernovae from Pantheon, and BAO from lyman-α and 6dF/MGS, constraints improve to m = 0.2985 0.0069 and h = 0.6803 0.0075, in agreement with Planck and with similar precision. We also explore one-parameter extensions to and find that results are consistent with flat at 1.3σ. We obtain competitive constraints on the curvature density fraction k=-0.039 0.029, the dark energy equation of state w0=-1.038 0.041, the effective number of relativistic species N eff=3.44+0.44-0.91 at 68\% CL, and the sum of neutrino masses Σ m<0.274eV at 95\% CL, without Planck data. Including Planck data, contraints significantly improve thanks to the large lever arm in redshift between LSS and CMB measurements. In particular, we obtain the stringent constraint Σ m<0.093eV, competitive with recent lyman-α forest power spectrum bound.