A metallicity study of 1987A-like supernova host galaxies

TL;DR

This study investigates the metallicity environments of 1987A-like supernovae, revealing they typically occur in low-metallicity, star-forming regions similar to the Large Magellanic Cloud, with some occurring at higher metallicities, indicating multiple progenitor channels.

Contribution

It provides the first comprehensive metallicity analysis of 1987A-like supernova host galaxies using both indirect and direct measurements, highlighting environmental factors influencing progenitor evolution.

Findings

1987A-like SNe typically occur in low-metallicity environments.

Some BSG SNe are found at near-solar metallicity, suggesting diverse progenitor channels.

BSG SNe are associated with star-forming regions similarly to other core-collapse SNe.

Abstract

The origin of the blue supergiant (BSG) progenitor of Supernova (SN) 1987A has long been debated, along with the role that its sub-solar metallicity played. We now have a sample of 1987A-like SNe that arise from the core collapse (CC) of BSGs. The metallicity of the explosion sites of the known BSG SNe is investigated, as well as their association to star-forming regions. Both indirect and direct metallicity measurements of 13 BSG SN host galaxies are presented, and compared to those of other CC SN types. Indirect measurements are based on the known luminosity-metallicity relation and on published metallicity gradients of spiral galaxies. To provide direct estimates based on strong line diagnostics, we obtained spectra of each BSG SN host both at the SN explosion site and at the positions of other HII regions. Continuum-subtracted Ha images allowed us to quantify the association between BSG SNe and star-forming regions. BSG SNe explode either in low-luminosity galaxies or at large distances from the nuclei of luminous hosts. Therefore, their indirectly measured metallicities are typically lower than those of SNe IIP and Ibc. This is confirmed by the direct estimates, which show slightly sub-solar values (12+log(O/H)=8.3-8.4 dex), similar to that of the Large Magellanic Cloud (LMC), where SN 1987A exploded. However, two SNe (1998A and 2004em) were found at near solar metallicity. SNe IIb have a metallicity distribution similar to that of BSG SNe. Finally, the association to star-forming regions is similar among BSG SNe, SNe IIP and IIn. Our results suggest that LMC metal abundances play a role in the formation of some 1987A-like SNe. This would naturally fit in a single star scenario for the progenitors. However, the existence of two events at nearly solar metallicity suggests that also other channels, e.g. binarity, contribute to produce BSG SNe.