Late-time Observations of Calcium-Rich Transient SN 2019ehk Reveal a Pure Radioactive Decay Power Source

Wynn V. Jacobson-Galán; Raffaella Margutti; Charles D. Kilpatrick; John Raymond; Edo Berger; Peter K. Blanchard; Alexey Bobrick; Ryan J. Foley; Sebastian Gomez; Griffin Hosseinzadeh; Danny Milisavljevic; Hagai Perets; Giacomo Terreran; Yossef Zenati

doi:10.3847/2041-8213/abdebc

Late-time Observations of Calcium-Rich Transient SN 2019ehk Reveal a Pure Radioactive Decay Power Source

Wynn V. Jacobson-Galán
, Raffaella Margutti
, Charles D. Kilpatrick
, John Raymond
, Edo Berger
, Peter K. Blanchard
, Alexey Bobrick
, Ryan J. Foley
, Sebastian Gomez
, Griffin Hosseinzadeh
, Danny Milisavljevic
, Hagai Perets
, Giacomo Terreran
, Yossef Zenati

Physics

Research output: Working paper › Preprint

Abstract

We present $\textit{Hubble Space Telescope}$ imaging of the Calcium-rich supernova (SN) 2019ehk at 276 - 389 days after explosion. These observations represent the latest photometric measurements of a Calcium-rich transient to date and allows for the first opportunity to analyze the late-time evolution of an object in this observational SN class. We find that the late-time bolometric light curve of SN 2019ehk can be described predominantly through the radioactive decay of ${}^{56}\textrm{Co}$ for which we derive a mass of $M({}^{56}\textrm{Co}) = (2.8 \pm 0.1) \times 10^{-2}$$\rm{M}_\odot$. Furthermore, the rate of decline in bolometric luminosity requires the leakage of $γ$-rays on timescale $t_γ = 53.9 \pm 1.30$ days, but we find no statistical evidence for incomplete positron trapping in the SN ejecta. While our observations cannot constrain the exact masses of other radioactive isotopes synthesized in SN 2019ehk, we estimate a mass ratio limit of $M({}^{57}\textrm{Co}) / M({}^{56}\textrm{Co}) \leq 0.030$. This limit is consistent with the explosive nucleosynthesis produced in the merger of low-mass white dwarfs, which is one of the favored progenitor scenarios in early-time studies of SN 2019ehk.

Original language	Undefined/Unknown
DOIs	https://doi.org/10.3847/2041-8213/abdebc
State	Published - 29 Oct 2020

Bibliographical note

16 pages, 4 figures. Accepted for publication in ApJL

Keywords

astro-ph.HE
astro-ph.SR

Access to Document

10.3847/2041-8213/abdebc

2010.15863v2

Cite this

@techreport{388e26b21e0e4006b909b24eaefa41f7,

title = "Late-time Observations of Calcium-Rich Transient SN 2019ehk Reveal a Pure Radioactive Decay Power Source",

abstract = "We present \$\textbackslash{}textit\{Hubble Space Telescope\}\$ imaging of the Calcium-rich supernova (SN) 2019ehk at 276 - 389 days after explosion. These observations represent the latest photometric measurements of a Calcium-rich transient to date and allows for the first opportunity to analyze the late-time evolution of an object in this observational SN class. We find that the late-time bolometric light curve of SN 2019ehk can be described predominantly through the radioactive decay of \$\{\}\textasciicircum{}\{56\}\textbackslash{}textrm\{Co\}\$ for which we derive a mass of \$M(\{\}\textasciicircum{}\{56\}\textbackslash{}textrm\{Co\}) = (2.8 \textbackslash{}pm 0.1) \textbackslash{}times 10\textasciicircum{}\{-2\}\$\$\textbackslash{}rm\{M\}\_\textbackslash{}odot\$. Furthermore, the rate of decline in bolometric luminosity requires the leakage of \$γ\$-rays on timescale \$t\_γ = 53.9 \textbackslash{}pm 1.30\$ days, but we find no statistical evidence for incomplete positron trapping in the SN ejecta. While our observations cannot constrain the exact masses of other radioactive isotopes synthesized in SN 2019ehk, we estimate a mass ratio limit of \$M(\{\}\textasciicircum{}\{57\}\textbackslash{}textrm\{Co\}) / M(\{\}\textasciicircum{}\{56\}\textbackslash{}textrm\{Co\}) \textbackslash{}leq 0.030\$. This limit is consistent with the explosive nucleosynthesis produced in the merger of low-mass white dwarfs, which is one of the favored progenitor scenarios in early-time studies of SN 2019ehk.",

keywords = "astro-ph.HE, astro-ph.SR",

author = "Jacobson-Gal{\'a}n, \{Wynn V.\} and Raffaella Margutti and Kilpatrick, \{Charles D.\} and John Raymond and Edo Berger and Blanchard, \{Peter K.\} and Alexey Bobrick and Foley, \{Ryan J.\} and Sebastian Gomez and Griffin Hosseinzadeh and Danny Milisavljevic and Hagai Perets and Giacomo Terreran and Yossef Zenati",

note = "16 pages, 4 figures. Accepted for publication in ApJL",

year = "2020",

month = oct,

day = "29",

doi = "10.3847/2041-8213/abdebc",

language = "???core.languages.und???",

type = "WorkingPaper",

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TY - UNPB

T1 - Late-time Observations of Calcium-Rich Transient SN 2019ehk Reveal a Pure Radioactive Decay Power Source

AU - Jacobson-Galán, Wynn V.

AU - Margutti, Raffaella

AU - Kilpatrick, Charles D.

AU - Raymond, John

AU - Berger, Edo

AU - Blanchard, Peter K.

AU - Bobrick, Alexey

AU - Foley, Ryan J.

AU - Gomez, Sebastian

AU - Hosseinzadeh, Griffin

AU - Milisavljevic, Danny

AU - Perets, Hagai

AU - Terreran, Giacomo

AU - Zenati, Yossef

N1 - 16 pages, 4 figures. Accepted for publication in ApJL

PY - 2020/10/29

Y1 - 2020/10/29

N2 - We present $\textit{Hubble Space Telescope}$ imaging of the Calcium-rich supernova (SN) 2019ehk at 276 - 389 days after explosion. These observations represent the latest photometric measurements of a Calcium-rich transient to date and allows for the first opportunity to analyze the late-time evolution of an object in this observational SN class. We find that the late-time bolometric light curve of SN 2019ehk can be described predominantly through the radioactive decay of ${}^{56}\textrm{Co}$ for which we derive a mass of $M({}^{56}\textrm{Co}) = (2.8 \pm 0.1) \times 10^{-2}$$\rm{M}_\odot$. Furthermore, the rate of decline in bolometric luminosity requires the leakage of $γ$-rays on timescale $t_γ = 53.9 \pm 1.30$ days, but we find no statistical evidence for incomplete positron trapping in the SN ejecta. While our observations cannot constrain the exact masses of other radioactive isotopes synthesized in SN 2019ehk, we estimate a mass ratio limit of $M({}^{57}\textrm{Co}) / M({}^{56}\textrm{Co}) \leq 0.030$. This limit is consistent with the explosive nucleosynthesis produced in the merger of low-mass white dwarfs, which is one of the favored progenitor scenarios in early-time studies of SN 2019ehk.

AB - We present $\textit{Hubble Space Telescope}$ imaging of the Calcium-rich supernova (SN) 2019ehk at 276 - 389 days after explosion. These observations represent the latest photometric measurements of a Calcium-rich transient to date and allows for the first opportunity to analyze the late-time evolution of an object in this observational SN class. We find that the late-time bolometric light curve of SN 2019ehk can be described predominantly through the radioactive decay of ${}^{56}\textrm{Co}$ for which we derive a mass of $M({}^{56}\textrm{Co}) = (2.8 \pm 0.1) \times 10^{-2}$$\rm{M}_\odot$. Furthermore, the rate of decline in bolometric luminosity requires the leakage of $γ$-rays on timescale $t_γ = 53.9 \pm 1.30$ days, but we find no statistical evidence for incomplete positron trapping in the SN ejecta. While our observations cannot constrain the exact masses of other radioactive isotopes synthesized in SN 2019ehk, we estimate a mass ratio limit of $M({}^{57}\textrm{Co}) / M({}^{56}\textrm{Co}) \leq 0.030$. This limit is consistent with the explosive nucleosynthesis produced in the merger of low-mass white dwarfs, which is one of the favored progenitor scenarios in early-time studies of SN 2019ehk.

KW - astro-ph.HE

KW - astro-ph.SR

U2 - 10.3847/2041-8213/abdebc

DO - 10.3847/2041-8213/abdebc

M3 - פרסום מוקדם

BT - Late-time Observations of Calcium-Rich Transient SN 2019ehk Reveal a Pure Radioactive Decay Power Source

ER -