The nebular spectrum of the type Ia supernova 2003hv: evidence for a non-standard event

Abstract

The optical and near-infrared late-time spectrum of the under-luminous Type Ia supernova 2003hv is analysed with a code that computes nebular emission from a supernova nebula. Synthetic spectra based on the classical explosion model W7 are unable to reproduce the large /\ ratio and the low infrared flux at 1 year after explosion, although the optical spectrum of SN\,2003hv is reproduced reasonably well for a supernova of luminosity intermediate between normal and subluminous (SN\,1991bg-like) ones. A possible solution is that the inner layers of the supernova ejecta (v 8000\,) contain less mass than predicted by classical explosion models like W7. If this inner region contains 0.5 of material, as opposed to 0.9 in Chandrasekhar-mass models developed within the Single Degenerate scenario, the low density inhibits recombination, favouring the large /\ ratio observed in the optical, and decreases the flux in the \ lines which dominate the IR spectrum. The most likely scenario may be an explosion of a sub-Chandrasekhar mass white dwarf. Alternatively, the violent/dynamical merger of two white dwarfs with combined mass exceeding the Chandrasekhar limit also shows a reduced inner density.