Testing the isotropy of cosmic acceleration with Pantheon+ and SH0ES: A cosmographic analysis

Abstract

We use a recent Pantheon+SH0ES compilation of Type Ia Supernova distance measurements at low-redshift, i.e., 0.01 ≤ z ≤ 0.10, in order to investigate the directional dependency of the deceleration parameter (q0) in different patches (60 size) across the sky, as a probe of the statistical isotropy of the Universe. We adopt a cosmographic approach to compute the cosmological distances, fixing H0 and MB to reference values provided by the collaboration. By looking at 500 different patches randomly taken across the sky, we find a maximum 3σ CL anisotropy level for q0, whose direction points orthogonally to the cosmic microwave background (CMB) dipole axis, i.e., (RA SN,DEC SN) = (267,6) vs (RA CMB,DEC CMB) = (167,-7). We assessed the statistical significance of those results, finding that such a signal is expected due to the limitations of the observational sample. These results support that there is no significant evidence for a departure from the cosmic isotropy assumption, one of the pillars of the standard cosmological model.