Joint Curvature and Growth Rate measurements with Supernova Peculiar Velocities and the CMB

Abstract

Type Ia supernova (SN) magnitudes present correlations due to the fact that their peculiar velocities are sourced by the large-scale structure of the Universe. This effect can be used to constrain properties related to the distribution and growth of matter perturbations. We analyze both Pantheon+ and Dark Energy Survey (DES-Y5) SN catalogues in combination with CMB data from Planck PR4 to constrain σ8 in , optionally including both curvature and a modified growth index γ. We show that SN and CMB datasets are highly complementary and capable of measuring σ8, γ and k simultaneously. Using only SN, we find σ8 = 0.73 0.22 (0.87 0.31) for Pantheon+ (DES-Y5) in the base flat model. Interestingly, allowing for free γ and k, we find hints of positive curvature: k = -0.011 0.006 (-0.014 0.005), which exclude flatness at 2.2σ (3.0σ), for the combination of CMB with Pantheon+ (DES-Y5). Such hints do not degrade if we also include a modified amplitude of CMB lensing, parametrized by AL. We find that γ = 0.519+0.061-0.099 (0.461+0.085-0.069), which are consistent with the predictions of General Relativity. In terms of fσ8(z), we find fσ8(0.024)=0.461+0.066-0.035 (fσ8(0.038) = 0.498+0.045-0.050) for CMB + Pantheon+ (DES-Y5). Finally, the strong degeneracy between all three k, γ and H0 results in a broader CMB H0 posterior. However, if we include SH0ES H0 data, which is in known strong tension with the CMB in flat , we find that the H0 tension is recast in terms of a significantly negative curvature and suppressed growth of structures.