Thermonuclear Supernova Explosion Criteria for Direct and Indirect Collisions of CO White Dwarfs: A Study of the Impact-parameter Threshold for Detonation

Thermonuclear Supernova Explosion Criteria for Direct and Indirect Collisions of CO White Dwarfs: A Study of the Impact-parameter Threshold for Detonation

The physical collisions of two white dwarfs (WDs; i.e., not slow mergers) have been shown to produce Type Ia–like supernova (SN) explosions. Most studies of WD collisions have focused on zero impact-parameter (direct) collisions, which can also be studied in 2D. However, the vast majority of WD coll...

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Bibliographic Details
Main Authors: Hila Glanz, Hagai B. Perets, Ruediger Pakmor
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Astrophysical Journal
Subjects:
Type Ia supernovae
Supernova dynamics
Binary stars
Shocks
Nuclear astrophysics
Explosive nucleosynthesis
Online Access:https://doi.org/10.3847/1538-4357/ade146
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Summary:The physical collisions of two white dwarfs (WDs; i.e., not slow mergers) have been shown to produce Type Ia–like supernova (SN) explosions. Most studies of WD collisions have focused on zero impact-parameter (direct) collisions, which can also be studied in 2D. However, the vast majority of WD collisions arising from any evolutionary channel suggested to date are expected to be indirect, i.e., have a nonnegligible impact parameter upon collision. Here, we use one of the highest-resolution 3D simulations to date (making use of the AREPO code) in order to explore both direct and indirect collisions and the conditions in which they give rise to a detonation and the production of a luminous SN. Using our simulations, we find a detonation criterion that can provide the critical impact parameter for an explosion to occur, depending on the density profile of the colliding WDs, their composition, and their collision velocities. We find that the initial velocity has a significant impact on the amount of ^56 Ni production from the explosion. Furthermore, the production of the ^56 Ni also depends on numerical modeling aspects.
ISSN:1538-4357

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