Stable nickel production in Type Ia supernovae: A smoking gun for the progenitor mass?

Abstract

At present, there are strong indications that white dwarf (WD) stars with masses well below the Chandrasekhar limit (MCh ~ 1.4 Msun) contribute a significant fraction of SN Ia progenitors. The relative fraction of stable iron-group elements synthesized in the explosion has been suggested as a possible discriminant between MCh and sub-MCh events. In particular, it is thought that the higher-density ejecta of MCh WDs, which favours the synthesis of stable isotopes of nickel, results in prominent [Ni II] lines in late-time spectra. We study the explosive nucleosynthesis of stable nickel in SNe Ia resulting from MCh and sub-MCh progenitors. We explore the potential for lines of [Ni II] at 7378 \AA\ and 1.94 microns in late-time spectra to serve as a diagnostic of the exploding WD mass, using nonlocal thermodynamic equilibrium radiative-transfer simulations with the CMFGEN code. We find that the radiative proton-capture reaction 57Co(p,gamma)58Ni is the dominant production mode for 58Ni in both MCh and sub-MCh models, while the alpha-capture reaction on 54Fe has a negligible impact on the final 58Ni yield. More importantly, we demonstrate that the lack of [Ni II] lines in late-time spectra of sub-MCh events is not always due to an under-abundance of stable Ni; rather, it results from the higher ionization of Ni in the inner ejecta. Conversely, the strong [Ni II] lines predicted in our 1D MCh models are completely suppressed when 56Ni is sufficiently mixed with the innermost layers, which are rich in stable iron-group elements. [Ni II] lines in late-time SN Ia spectra have a complex dependency on the abundance of stable Ni, which limits their use in distinguishing among MCh and sub-MCh progenitors. However, we argue that a low-luminosity SN Ia displaying strong [Ni II] lines would most likely result from a Chandrasekhar-mass progenitor. [Abridged]Comment: Accepted for publication in A&A, replaced with accepted version (+ corrected a typo in the conclusions: "overabundance" replaced with "over abundance"). 20 pages, 10 figures. Model spectra available at https://zenodo.org/record/552808