The γ-ray deposition histories of calcium-rich supernovae

Amir Sharon; Doron Kushnir

doi:10.1093/mnras/stad1227

The γ-ray deposition histories of calcium-rich supernovae

Amir Sharon^*, Doron Kushnir

^*Corresponding author for this work

Department of Particle Physics and Astrophysics

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Calcium-rich supernovae (Ca-rich SNe) are faint, rapidly evolving transients whose progenitor system is yet to be determined. We derive the γ-ray deposition histories of five Ca-rich SNe from the literature in order to place constraints on possible progenitor systems. We find that the γ-ray escape time, t₀, of the Ca-rich SNe sample is ≈ 35-65 d, within the unoccupied region between Type Ia SNe and stripped-envelope supernovae (SESNe). The t₀−M_Ni56 distribution of these SNe, where M_Ni56 is the synthesized ⁵⁶Ni mass in the explosion, creates a continuum between the Type Ia and SESNe t₀−M_Ni56 distribution, hinting at a possible connection between all the events. By comparing our results to models from the literature, we were able to determine that helium shell detonation models and core-collapse models of ultra-stripped stars are unlikely to explain Ca-rich SNe since the gamma-ray escape time in these models is smaller than the observed values. Models that agree with the observed t₀−M_Ni56 distribution are explosions of low mass, M ≈ 0.75-0.8 M⊙, white dwarfs and core-collapse models of stripped stars with an ejecta mass of M ≈ 1-3 M⊙.

Original language	English
Pages (from-to)	6264-6275
Number of pages	12
Journal	Monthly notices of the Royal Astronomical Society
Volume	522
Issue number	4
Early online date	28 Apr 2023
DOIs	https://doi.org/10.1093/mnras/stad1227
Publication status	Published - 1 Jul 2023

Bibliographical note

Funding Information:
We thank Boaz Katz for useful discussions. DK is supported by a research grant from The Abramson Family Center for Young Scientists, an ISF grant, and by Minerva Stiftung. This work made use of the Heidelberg Supernova Model Archive (HESMA). We thank Luc Dessart, Takashi Moriya, Stuart Sim, and Stan Woosley for sharing their ejecta profiles with us.

Publisher Copyright:
© 2023 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/stad1227

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abstract = "Calcium-rich supernovae (Ca-rich SNe) are faint, rapidly evolving transients whose progenitor system is yet to be determined. We derive the γ-ray deposition histories of five Ca-rich SNe from the literature in order to place constraints on possible progenitor systems. We find that the γ-ray escape time, t0, of the Ca-rich SNe sample is ≈ 35-65 d, within the unoccupied region between Type Ia SNe and stripped-envelope supernovae (SESNe). The t0−MNi56 distribution of these SNe, where MNi56 is the synthesized 56Ni mass in the explosion, creates a continuum between the Type Ia and SESNe t0−MNi56 distribution, hinting at a possible connection between all the events. By comparing our results to models from the literature, we were able to determine that helium shell detonation models and core-collapse models of ultra-stripped stars are unlikely to explain Ca-rich SNe since the gamma-ray escape time in these models is smaller than the observed values. Models that agree with the observed t0−MNi56 distribution are explosions of low mass, M ≈ 0.75-0.8 M⊙, white dwarfs and core-collapse models of stripped stars with an ejecta mass of M ≈ 1-3 M⊙.",

author = "Amir Sharon and Doron Kushnir",

note = "Funding Information: We thank Boaz Katz for useful discussions. DK is supported by a research grant from The Abramson Family Center for Young Scientists, an ISF grant, and by Minerva Stiftung. This work made use of the Heidelberg Supernova Model Archive (HESMA). We thank Luc Dessart, Takashi Moriya, Stuart Sim, and Stan Woosley for sharing their ejecta profiles with us. Publisher Copyright: {\textcopyright} 2023 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.",

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N2 - Calcium-rich supernovae (Ca-rich SNe) are faint, rapidly evolving transients whose progenitor system is yet to be determined. We derive the γ-ray deposition histories of five Ca-rich SNe from the literature in order to place constraints on possible progenitor systems. We find that the γ-ray escape time, t0, of the Ca-rich SNe sample is ≈ 35-65 d, within the unoccupied region between Type Ia SNe and stripped-envelope supernovae (SESNe). The t0−MNi56 distribution of these SNe, where MNi56 is the synthesized 56Ni mass in the explosion, creates a continuum between the Type Ia and SESNe t0−MNi56 distribution, hinting at a possible connection between all the events. By comparing our results to models from the literature, we were able to determine that helium shell detonation models and core-collapse models of ultra-stripped stars are unlikely to explain Ca-rich SNe since the gamma-ray escape time in these models is smaller than the observed values. Models that agree with the observed t0−MNi56 distribution are explosions of low mass, M ≈ 0.75-0.8 M⊙, white dwarfs and core-collapse models of stripped stars with an ejecta mass of M ≈ 1-3 M⊙.

AB - Calcium-rich supernovae (Ca-rich SNe) are faint, rapidly evolving transients whose progenitor system is yet to be determined. We derive the γ-ray deposition histories of five Ca-rich SNe from the literature in order to place constraints on possible progenitor systems. We find that the γ-ray escape time, t0, of the Ca-rich SNe sample is ≈ 35-65 d, within the unoccupied region between Type Ia SNe and stripped-envelope supernovae (SESNe). The t0−MNi56 distribution of these SNe, where MNi56 is the synthesized 56Ni mass in the explosion, creates a continuum between the Type Ia and SESNe t0−MNi56 distribution, hinting at a possible connection between all the events. By comparing our results to models from the literature, we were able to determine that helium shell detonation models and core-collapse models of ultra-stripped stars are unlikely to explain Ca-rich SNe since the gamma-ray escape time in these models is smaller than the observed values. Models that agree with the observed t0−MNi56 distribution are explosions of low mass, M ≈ 0.75-0.8 M⊙, white dwarfs and core-collapse models of stripped stars with an ejecta mass of M ≈ 1-3 M⊙.

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The γ-ray deposition histories of calcium-rich supernovae

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