SN 2015bf: a fast declining type II supernova with flash-ionised signatures

TL;DR

SN 2015bf is a rapidly declining type II supernova with early flash-ionised features, indicating a violent pre-explosion mass loss, and it synthesized a small amount of nickel, suggesting a super-AGB progenitor.

Contribution

This study provides detailed optical and ultraviolet observations of SN 2015bf, revealing its unique fast decline, flash-ionised signatures, and implications for its progenitor's mass loss and explosion mechanism.

Findings

Early flash-ionised emission lines indicate confined circumstellar material.

High peak luminosity with rapid decline suggests low nickel production.

Progenitor likely a super-AGB star with recent violent mass loss.

Abstract

We present optical and ultraviolet photometry, as well as optical spectra, for the type II supernova (SN) 2015bf. Our observations cover the phases from $\sim 2$ to $\sim 200$ d after explosion. The first spectrum is characterised by a blue continuum with a blackbody temperature of $\sim 24,000$K and flash-ionised emission lines. After about one week, the spectra of SN 2015bf evolve like those of a regular SN II. From the luminosity of the narrow emission component of H$\alpha$, we deduce that the mass-loss rate is larger than $\sim 3.7\times10^{-3}\,{\rm M_\odot\,yr^{-1}}$. The disappearance of the flash features in the first week after explosion indicates that the circumstellar material is confined within $\sim 6 \times 10^{14}$ cm. Thus, we suggest that the progenitor of SN 2015bf experienced violent mass loss shortly before the supernova explosion. The multiband light curves show that SN 2015bf has a high peak luminosity with an absolute visual magnitude $M_V = -18.11 \pm 0.08$ mag and a fast post-peak decline with a $V$-band decay of $1.22 \pm 0.09$ mag within $\sim 50$ d after maximum light. Moreover, the $R$-band tail luminosity of SN 2015bf is fainter than that of SNe~II with similar peak by 1--2 mag, suggesting a small amount of ${\rm ^{56}Ni}$ ($\sim 0.009\,{\rm M_\odot}$) synthesised during the explosion. Such a low nickel mass indicates that the progenitor of SN 2015bf could be a super-asymptotic-giant-branch star that collapsed owing to electron capture.