Litcius/Paper detail

Understanding nebular spectra of Type Ia supernovae

Kevin D. Wilk, D. J. Hillier, Luc Dessart

2020Monthly Notices of the Royal Astronomical Society29 citationsDOIOpen Access PDF

Abstract

ABSTRACT In this study, we present one-dimensional, non-local-thermodynamic-equilibrium, radiative transfer simulations (using cmfgen) in which we introduce micro-clumping at nebular times into two Type Ia supernova ejecta models. We use one sub-Chandrasekhar (sub-MCh) ejecta model with 1.04 M⊙ and one Chandrasekhar (MCh) ejecta model with 1.40 M⊙. We introduce clumping factors f = 0.33, 0.25, and 0.10, which are constant throughout the ejecta, and compare results to the unclumped f = 1.0 case. We find that clumping is a natural mechanism to reduce the ionization of the ejecta, reducing emission from [Fe iii], [Ar iii], and [S iii] by a factor of a few. For decreasing values of the clumping factor f, the [Ca ii] λλ7291,7324 doublet became a dominant cooling line for our MCh model but remained weak in our sub-MCh model. Strong [Ca ii] λλ7291,7324 indicates non-thermal heating in that region and may constrain explosion modelling. Due to the low abundance of stable nickel, our sub-MCh model never showed the [Ni ii] 1.939-μm diagnostic feature for all clumping values.

Topics & Concepts

PhysicsEjectaSupernovaAstrophysicsSpectral lineType (biology)LambdaIonizationRadiative transferLine (geometry)AstronomyIonOpticsMathematicsBiologyEcologyQuantum mechanicsGeometryGamma-ray bursts and supernovaeAstrophysics and Star Formation StudiesStellar, planetary, and galactic studies
Understanding nebular spectra of Type Ia supernovae | Litcius