Explosion sites of SN 1994W-like transients

TL;DR

This study investigates the explosion sites and characteristics of SN 1994W-like transients, suggesting they originate from low-mass red supergiants and involve interactions with circumstellar material, possibly from stellar mergers or nuclear flashes.

Contribution

It provides new insights into the progenitors and explosion environments of SN 1994W-like transients using spatial and spectrophotometric analysis, proposing a low-mass RSG origin and potential explosion mechanisms.

Findings

Low NCR$_{ ext{H}\alpha}$ indicates association with low-mass stars.

NCR$_{ ext{NUV}}$ distribution is flat, consistent with low-mass RSGs.

Late-time imaging constrains progenitor brightness, excluding most supergiants.

Abstract

We study a sample of narrow-line transients that share characteristics with the Type IIn classified supernova (SN) 1994W, a prototypical member of this class of events, via investigation of their explosion sites and spectrophotometric data. The normalised cumulative rank (NCR) method was used to compare the explosion sites of 10 events to the star-formation distributions of their host galaxies, and to the sites of different evolved massive stars. The resulting sample mean value of NCR$_{\mathrm{H}\alpha} = 0.170 \pm 0.076$ is low, while the NCR$_{\mathrm{NUV}}$ distribution is flat with a mean value of $0.488 \pm 0.084$. The NCR distribution of SN 1994W-like events is consistent with relatively low-mass red supergiants (RSGs) and, despite the small sample size, inconsistent with high-mass stars such as luminous blue variables. To explain the nature of SN 1994W-like transients, interaction between an expanding ejecta and a relatively massive circumstellar medium is likely required, with the latter possibly having been produced by a H envelope ejection via a nuclear flash event, or a luminous red nova (LRN) from a stellar merger; both channels are consistent with low-mass RSGs suggested by the NCR results. In this context, we find the early $-26$ d spectrum from light curve maximum of SN 2003G to share similarities to those of F8-type supergiant stars and LRNe. Finally, based on late-time HST imaging, we set the deepest limits for the surviving precursor of SN 2011ht to $M_{\mathrm{F438W}} > -3.8$ and $M_{\mathrm{F555W}} > -4.0$ mag. This would exclude most supergiants as a non-terminal progenitor, assuming that such a star is not completely obscured by newly formed dust.