Investigating the observational properties of Type Ib supernova SN 2017iro

Abstract

We report results of optical imaging and low-resolution spectroscopic monitoring of supernova (SN) 2017iro that occurred in the nearby (\,31 Mpc) galaxy NGC 5480. The He1 5876 \, feature present in the earliest spectrum (--\,7 d) classified it as a Type Ib SN. The follow-up observations span from --\,7 to +\,266 d with respect to the B-band maximum. With a peak absolute magnitude in V-band, (MV)\,=\,-17.760.15 mag and bolometric luminosity (log10\,L)\,=\,42.39\,\, 0.09 erg s-1, SN 2017iro is a moderately luminous Type Ib SN. The overall light curve evolution of SN 2017iro is similar to SN 2012au and SN 2009jf during the early (up to 100 d) and late phases (>150 d), respectively. The line velocities of both Fe2 5169 \, and He1 5876 \, are \,9000 km s-1 near the peak. The analysis of the nebular phase spectrum (\,+209 d) indicates an oxygen mass of \,0.35 M. The smaller [O1]/[Ca2] flux ratio of \,1 favours a progenitor with a zero-age main-sequence mass in the range \,13--15 M, most likely in a binary system, similar to the case of iPTF13bvn. The explosion parameters are estimated by applying different analytical models to the quasi-bolometric light curve of SN 2017iro. 56Ni mass synthesized in the explosion has a range of \,0.05\,--\,0.10 M, the ejecta mass 1.4\,--\,4.3 M and the kinetic energy \,0.8\,--\,1.9\,× 1051 erg.