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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 3 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.
Bengaly et al. (Tue,) studied this question.
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