Concerning Colour: The Effect of Environment on Type Ia Supernova Colour in the Dark Energy Survey
Résumé
Recent analyses have found intriguing correlations between the colour ($c$) of type Ia supernovae (SNe Ia) and the size of their mass-step, the relationship between host galaxy stellar mass and Hubble residual. These analyses suggest that the underlying cause of this relationship is dust. Using a sample of 675 photometrically-classified SNe Ia from the Dark Energy Survey 5-year sample, we study the differences in Hubble residual for a variety of host and local properties for subsamples split by their colour ($c$). We find a $3\sigma$ difference for the size of the mass-step when comparing blue ($c < 0$) and red ($c > 0$) SNe. We observe the lowest r.m.s. scatter ($\sim 0.14$) in Hubble residual for blue SNe in low mass or blue environments, suggesting that these objects provide the most homogeneous sample for cosmological analyses. By fitting for $c$-dependent relationships between Hubble residuals and $M_\mathrm{stellar}$, approximating existing dust models, we remove the mass-step from the data but find significant remaining steps in rest-frame $U-R$, indicating that current dust modelling based on $M_\mathrm{stellar}$ may not fully explain the remaining dispersion in SN luminosity. The most dispersion is removed by instead accounting for a $c$-dependent relationship between Hubble residuals and global $U-R$, resulting in $\leq 1\sigma$ remaining steps in other environmental properties, suggesting that $U-R$ provides different information about the environment of SNe Ia to $M_\mathrm{stellar}$. This $c$-dependent $U-R$ relation implies that $U-R$ may be more closely linked to dust, motivating the future inclusion of galaxy $U-R$ colour in the correction for SN distance biases.
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