Modified Gravity Constraints from the Full Shape Modeling of Clustering Measurements from DESI 2024

Abstract

We present cosmological constraints on deviations from general relativity (GR) from the first-year of clustering observations from Dark Energy Spectroscopic Instrument (DESI) in combination with other datasets. We first consider μ(a,k)-(a,k) modified gravity (MG) parametrization (as well as η(a,k)) in flat and w0 waCDM backgrounds. Using a functional form for time-only evolution gives μ0=0.11+0.44-0.54 from DESI(FS+BAO)+BBN and a wide prior on ns. Using DESI(FS+BAO)+CMB+DESY3+DESY5-SN, we obtain μ0=0.05 0.22 and 0=0.008 0.045 in the background. In w0 waCDM, we obtain μ0=-0.24+0.32-0.28 and 0=0.006 0.043, consistent with GR, and still find a preference for dynamical dark energy with w0>-1 and wa<0. We then use binned forms in the 2 backgrounds starting with 2 bins in redshift and then adding 2 bins in scale for a total of 4 and 8 MG parameters, respectively. All MG parameters are found consistent with GR. We also find that the tension reported for 0 with GR from Planck PR3 goes away when using LoLLiPoP+HiLLiPoP likelihoods. As noted previously, this seems to indicate the tension is related to CMB lensing anomaly in PR3 which is also resolved when using these likelihoods. We then constrain the class of Horndeski theory in both EFT-basis and α-basis. Assuming a power law for the non-minimal coupling function , we obtain 0=0.012+0.001-0.012 and s0=0.996+0.54-0.20 from DESI(FS+BAO)+DESY5SN+CMB in a background, consistent with GR. Using the α-basis with no-braiding (αB=0) gives cM<1.14, in agreement with GR. However, we see a mild yet consistent indication for cB>0 when αB is varied which will require further study to determine whether this is due to systematics or new physics. [Abridged]

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