http://arxiv.org/abs/1805.05911
Recent analyses suggest that distance residuals measured from Type Ia supernovae (SNe Ia) are correlated with local host galaxy properties within a few kpc of the SN explosion. However, the well-established correlation with the global properties of the host galaxy is nearly as significant, with a shift of 0.06 mag across a low to high mass boundary (the mass step). Here, we investigate whether the stellar masses and rest-frame $u – g$ colors of regions within 1.5 kpc of the SN Ia explosion site are significantly better correlated with SN distance measurements than global properties or properties measured at random locations in SN hosts. With the Foundation and Pantheon datasets, we measure host properties using 271 SNe Ia at $z < 0.1$. At $\lesssim 2 \sigma$ significance, local properties tend to correlate with distance residuals better than properties at random locations, though despite using the largest low-$z$ sample to date we cannot definitively prove that a local correlation is more significant than a random correlation. At the 2.1$\sigma$ level our data also hint that SNe observed by surveys that do not target a pre-selected set of galaxies may have a larger local mass step than SNe from surveys that do, an increase of $0.070 \pm 0.034$ mag. We find some evidence that the correlation of galaxy properties with Hubble residuals is stronger for SNe where both local and global indicators agree, yielding a combined host mass step of $0.099 \pm 0.026$ mag. After correcting for the global mass step, we find that only the local mass step remains significant at $> 2 \sigma$ and we conservatively estimate a systematic shift in H$_0$ measurements of -0.13 km s$^{-1}$ Mpc$^{-1}$ with an additional uncertainty of 0.13 km s$^{-1}$ Mpc$^{-1}$, $\sim$10% of the present uncertainty.
D. Jones, A. Riess, D. Scolnic, et. al.
Wed, 16 May 18
79/92
Comments: submitted to ApJ, comments welcome
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