Dark Energy Survey: implications for cosmological expansion models from the final DES Baryon Acoustic Oscillation and Supernova data
Abstract
The Dark Energy Survey (DES) recently released the final results of its two principal probes of the expansion history: Type Ia Supernovae (SNe) and Baryonic Acoustic Oscillations (BAO). We explore the cosmological implications of these data in combination with external Cosmic Microwave Background (CMB), Big Bang Nucleosynthesis (BBN), and age-of-the-Universe information. The BAO measurement, 2σ away from Planck's predictions, pushes for low values of m compared to Planck, in contrast to SN which prefers a higher value. We identify several tensions among datasets in the model that cannot be resolved by including either curvature or a constant dark energy equation of state. By combining BAO+SN+CMB despite these mild tensions, we obtain k=-5.5+4.6-4.2×10-3 in k, and w=-0.948+0.028-0.027 in wCDM. In wCDM, BAO and SN push again in different directions of parameter space, favoring, respectively w<-1 and w>-1. If we open the parameter space to w0waCDM, all the datasets are mutually more compatible, and we find concordance in the w0>-1,wa<0 quadrant, with BAO pushing for wa<0 and SN for [w0>-1,wa<0]. For DES BAO and SN in combination with Planck-CMB, we find a 3.2σ deviation from , with w0=-0.673+0.098-0.097, wa = -1.37+0.51-0.50, a Hubble constant of H0=67.81+0.96-0.86km s-1Mpc-1, and an abundance of matter of m=0.3109+0.0086-0.0099. For the combination of all the background cosmological probes considered we still find a deviation of 2.8σ from in the w0-wa plane. Assuming a minimal neutrino mass, this work provides tentative evidence for non- physics, which is consistent with recent claims in support of evolving dark energy, or a source of unknown systematics.
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