Long-term evolution of the SN 2009ip-like transient SN 2016cvk

Abstract

<p><b>Aims</b><br></p><p><em></em>The interacting transient SN 2016cvk (ASASSN-16jt) is a peculiar SN 2009ip-like event. We present our follow-up data with an aim to draw conclusions on the physical nature of the progenitor system.</p><p><b>Methods</b><br></p><p>Our spectrophotometric data set of SN 2016cvk covers the ultraviolet, optical, and near-infrared wavelength region extending to +1681 d from the light curve peak. In this work, we analysed the data and made comparison with other SN 2009ip-like transients. We note that archival data reveal pre-outbursts of the progenitor with the first detection at –1219 d.</p><p><b>Results</b><br></p><p><em></em>The light-curve evolution of SN 2016cvk consists of two consecutive luminous events A and B, with peak magnitudes of <em>M</em>_<em>V</em> < −15.6 and <em>M</em>_<em>r</em> = −18.3 mag, respectively. The spectra are dominated by Balmer emission lines that have a complex, multi-component evolution resembling that of other SN 2009ip-like targets. SN 2016cvk is among the first detected SN 2009ip-like events that show early ‘flash ionisation’ features of C III, N III, and He II, lasting for 16 ± 5 d. Our late-time +405 d spectrum shows forbidden [Ca II], [Fe II], and [O I] features, with the latter detected particularly clearly for a SN 2009ip-like event.</p><p><b>Conclusions</b><br></p><p><em></em>The evolution of SN 2016cvk is similar to other SN 2009ip-like transients, with some uncommon traits. The lack of a double-peaked structure in the Balmer lines is likely caused by differences in the circumstellar medium structure or viewing angle. The flash features in the early spectra propose abundances consistent with a red, yellow, or blue supergiant progenitor, rather than a luminous blue variable, for example. The detection of [O I] in the +405 d spectrum suggests some possible evidence of nucleosynthesised material generated in a SN explosion.</p>