Observational signature of circumstellar interaction and 56Ni-mixing in the Type II Supernova 2016gfy

Abstract

The optical and ultra-violet broadband photometric and spectroscopic observations of the Type II supernova (SN) 2016gfy are presented. The V-band light curve (LC) shows a distinct plateau phase with a slope, s2 0.12 mag / 100 d and a duration of 90 5 d. Detailed analysis of SN 2016gfy provided a mean 56Ni mass of 0.033 0.003 M, a progenitor radius of 350-700 R, a progenitor mass of 12-15 M and an explosion energy of 0.9-1.4 × 1051\ erg\ s-1. The P-Cygni profile of H α in the early phase spectra ( 11-21 d) shows a boxy emission. Assuming that this profile arises from the interaction of the SN ejecta with the pre-existing circumstellar material (CSM), it is inferred that the progenitor underwent a recent episode (30-80 years prior to the explosion) of enhanced mass loss. Numerical modeling suggests that the early LC peak is reproduced better with an existing CSM of 0.15 M spread out to 70 AU. A late-plateau bump is seen in the VRI LCs during 50-95 d. This bump is explained as a result of the CSM interaction and/or partial mixing of radioactive 56Ni in the SN ejecta. Using strong-line diagnostics, a sub-solar oxygen abundance is estimated for the supernova H II region (12 + log(O/H) = 8.50 0.11), indicating an average metallicity for the host of a Type II SN. A star formation rate of 8.5 M\ yr-1 is estimated for NGC 2276 using the archival GALEX FUV data.