DESI 2024 VI: Cosmological Constraints from the Measurements of Baryon Acoustic Oscillations

Abstract

We present cosmological results from the measurement of baryon acoustic oscillations (BAO) in galaxy, quasar and Lyman-α forest tracers from the first year of observations from the Dark Energy Spectroscopic Instrument (DESI), to be released in the DESI Data Release 1. DESI BAO provide robust measurements of the transverse comoving distance and Hubble rate, or their combination, relative to the sound horizon, in seven redshift bins from over 6 million extragalactic objects in the redshift range 0.1<z<4.2. DESI BAO data alone are consistent with the standard flat cosmological model with a matter density m=0.295 0.015. Paired with a BBN prior and the robustly measured acoustic angular scale from the CMB, DESI requires H0=(68.520.62) km/s/Mpc. In conjunction with CMB anisotropies from Planck and CMB lensing data from Planck and ACT, we find m=0.307 0.005 and H0=(67.970.38) km/s/Mpc. Extending the baseline model with a constant dark energy equation of state parameter w, DESI BAO alone require w=-0.99+0.15-0.13. In models with a time-varying dark energy equation of state parametrized by w0 and wa, combinations of DESI with CMB or with SN~Ia individually prefer w0>-1 and wa<0. This preference is 2.6σ for the DESI+CMB combination, and persists or grows when SN~Ia are added in, giving results discrepant with the model at the 2.5σ, 3.5σ or 3.9σ levels for the addition of Pantheon+, Union3, or DES-SN5YR datasets respectively. For the flat model with the sum of neutrino mass Σ m free, combining the DESI and CMB data yields an upper limit Σ m < 0.072 (0.113) eV at 95% confidence for a Σ m>0 (Σ m>0.059) eV prior. These neutrino-mass constraints are substantially relaxed in models beyond . [Abridged.]

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