# Explosive Nucleosynthesis in Sub-Chandrasekhar Mass White Dwarf Models   for Type Ia Supernovae: Dependence on Model Parameters

**Authors:** Shing-Chi Leung, Ken'ichi Nomoto

arXiv: 1901.10007 · 2020-07-02

## TL;DR

This study investigates how explosion properties and nucleosynthesis in sub-Chandrasekhar mass white dwarf models depend on various parameters, aiming to explain observed diversity in Type Ia supernovae and their chemical signatures.

## Contribution

It extends previous models to include sub-Chandrasekhar mass white dwarfs with varied parameters, analyzing explosion dynamics, nucleosynthesis, and initial detonation configurations.

## Key findings

- Identified minimum He envelope mass for C detonation initiation.
- Showed dependence of nucleosynthesis yields on model parameters.
- Compared model yields with observed supernova remnants and peculiar SNe Ia.

## Abstract

Recent observations of Type Ia supernovae (SNe Ia) have shown diversified properties of the explosion strength, light curves and chemical composition. To investigate possible origins of such diversities in SNe Ia, we have presented multi-dimensional hydrodynamical study of explosions and associated nucleosynthesis in the near Chandrasekhar mass carbon-oxygen (CO) white dwarfs (WDs) for a wide range of parameters (Leung and Nomoto 2018 ApJ). In the present paper, we extend our wide parameter survey of models to the explosions of sub-Chandrasekhar mass CO WDs. We take the double detonation model for the explosion mechanism. The model parameters of the survey include the metallicity of $Z = 0 - 5~Z_\odot$, the CO WD mass of $M = 0.90 - 1.20~M_\odot$, and the He envelope mass of $M_{\rm He} = 0.05 - 0.20~M_\odot$. We also study how the initial He detonation configuration, such as spherical, bubble, and ring shapes, triggers the C detonation. For these parameters, we derive the minimum He envelope mass necessary to trigger the C detonation. We then examine how the explosion dynamics and associated nucleosynthesis depend on these parameters, and compare our results with the previous representative models. We compare our nucleosynthesis yields with the unusual abundance patterns of Fe-peak elements and isotopes observed in SNe Ia 2011fe, 2012cg and 2014J, as well as SN Ia remnant 3C 397 to provide constraints on their progenitors and environments. We provide the nucleosynthesis yields table of the sub-Chandrasekhar mass explosions, to discuss their roles in the galactic chemical evolution and archaeology.

## Full text

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## Figures

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## References

101 references — full list in the complete paper: https://tomesphere.com/paper/1901.10007/full.md

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Source: https://tomesphere.com/paper/1901.10007