SN2017ckj: A linearly declining Type IIb supernova with a relatively massive hydrogen envelope
Abstract
We present optical observations of the Type IIb supernova (SN) 2017ckj, covering approximately 180 days after the explosion. Its early-time multi-band light curves display no clear evidence of a shock-cooling tail, resembling the behavior of SN2008ax. The V-band light curve exhibits a short rise time of about 5 days and reaches an absolute fitted peak magnitude of M V=-18.490.18mag. The late-time multi-band light curves reveal a linear decline. We modelled the bolometric light curve of SN2017ckj to constrain the progenitor and the explosion parameters. We estimated a total mass of 56Ni synthesized by SN2017ckj of M Ni = 0.21+0.05-0.03\ M, with a massive H-rich envelope of M env = 0.4+0.1-0.1\ M. Both the 56Ni mass and the envelope mass of SN2017ckj are higher than those of typical SNe IIb, in agreement with its peculiar light curve evolution. The early-time spectra of SN2017ckj are dominated by a blue continuum, accompanied by narrow Hα and emission lines. The earliest spectrum exhibits flash ionization features, from which we estimated a progenitor mass-loss rate of 3×10-4M yr-1. At later epochs, the spectra develop broad P-Cygni profiles and become increasingly similar to those of SNe IIb, especially SN2018gk. The late-time spectrum at around 139 days does not show a distinct decline in the strength of Hα emission profile, also indicating a relatively massive envelope of its progenitor. Aside from the Hα feature, the nebular spectrum exhibits prominent emission lines of , , [], and ], which are consistent with the prototypical SN1993J.
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