Abundance stratification in type Ia supernovae -- VII. The peculiar, C-rich iPTF16abc: highlighting diversity among luminous events

Abstract

Observations of Type Ia supernovae (SNe\,Ia) reveal diversity, even within assumed subcategories. Here, the composition of the peculiar iPTF16abc (SN\,2016bln) is derived by modeling a time series of optical spectra. iPTF16abc's early spectra combine traits of SNe 1999aa and 1991T known for weak \ λ 6355 and prominent \ features. However, it differs with weak early \ lines, and persistent \ lines post-peak. It also exhibits a weak \ H\&K feature aligning it with SN\,1991T, an observation supported by their bolometric light curves. The early attenuation of \ results from abundance effect. The weakening of the \ λ 6355 line, stems from silicon depletion in the outer shells, a characteristic shared by both SNe 1999aa and 1991T, indicating a common explosion mechanism that terminates nuclear burning at around 12000 \, unseen in normal events. Beneath a thin layer of intermediate mass elements (IMEs) with a total mass of 0.18 , extends a \ rich shell totaling 0.76 \ and generating a bolometric luminosity as high as Lpeak=1.60 0.1 × 1043 ergs s-1. Inner layers, typical of SNe\,Ia, hold neutron-rich elements, (\ and ), totaling 0.20 M. Stable iron, exceeding solar abundance, and carbon, coexist in the outermost layers, challenging existing explosion models. The presence of carbon down to v≈ 9000\,, totalling 0.01 \, unprecedented in this class, links iPTF16abc to SN\,2003fg-like events. The retention of 91T-like traits in iPTF16abc underscores its importance in understanding the diversity of SNe\,Ia.