Exploring the evidence for a large local void with supernovae Ia data

In thiswork we utilize the most recent publicly available type Ia supernova (SN Ia) compilations and implement a well-formulated cosmological model based on Lemaitre-Tolman-Bondi (LTB) metric in presence of cosmological constant Lambda (Lambda LTB) to test for signatures of large local inhomogeneities at z <= 0.15. Local underdensities in this redshift range have been previously found based on luminosity density data and galaxy number counts. Our main constraints on the possible local void using the Pantheon SN Ia dataset are redshift size of z(size) = 0.068(-0.030)(+0.021) and density contrast of delta Omega(0)/Omega(0) = -10.5(-7.4)(+9.3) per cent between 16th and 84th percentiles. Investigating the possibility to alleviate the similar to 9 per cent disagreement between measurements of present expansion rate H-0 coming from calibrated local SN Ia and high-z cosmic microwave background data, we find large local void to be a very unlikely explanation alone, consistently with previous studies. However, the level of matter inhomogeneity at a scale of similar to 100 Mpc that is allowed by SN Ia data, although not expected from Lambda cold dark matter cosmic variance calculations, could be the origin of additonal systematic error in distance ladder measurements based on SN Ia. Fitting low-redshift Pantheon data with a cut 0.023 < z < 0.15 to the Lambda LTB model and to the Taylor expanded luminosity distance formula we estimate that this systematic error amounts to 1.1 per cent towards the lower H-0 value. A test for local anisotropy in Pantheon SN Ia data yields null evidence. Analysis of luminosity density data provides a constraint on contrast of large isotropic void delta Omega(0)/Omega(0) = -51.9 per cent +/- 6.3 per cent, which is in similar to 4 sigma tension with SN Ia results. More data are necessary to better constrain the local matter density profile and understand the disagreement between SN Ia and luminosity density samples.