SN 2021zny: an early flux excess combined with late-time oxygen emission suggests a double white dwarf merger event

Georgios Dimitriadis; Kate Maguire; Viraj R. Karambelkar; Ryan J. Lebron; Chang Liu; Alexandra Kozyreva; Adam A. Miller; Ryan Ridden-Harper; Joseph P. Anderson; Ting Wan Chen; Michael Coughlin; Massimo Della Valle; Andrew Drake; Lluís Galbany; Mariusz Gromadzki; Steven L. Groom; Claudia P. Gutiérrez; Nada Ihanec; Cosimo Inserra; Joel Johansson; Tomás E. Müller-Bravo; Matt Nicholl; Abigail Polin; Ben Rusholme; Steve Schulze; Jesper Sollerman; Shubham Srivastav; Kirsty Taggart; Qinan Wang; Yi Yang; David R. Young

doi:10.1093/mnras/stad536

SN 2021zny: an early flux excess combined with late-time oxygen emission suggests a double white dwarf merger event

Georgios Dimitriadis
, Kate Maguire
, Viraj R. Karambelkar
, Ryan J. Lebron
, Chang Liu
, Alexandra Kozyreva
, Adam A. Miller
, Ryan Ridden-Harper
, Joseph P. Anderson
, Ting Wan Chen
, Michael Coughlin
, Massimo Della Valle
, Andrew Drake
, Lluís Galbany
, Mariusz Gromadzki
, Steven L. Groom
, Claudia P. Gutiérrez
, Nada Ihanec
, Cosimo Inserra
, Joel Johansson

Tomás E. Müller-Bravo, Matt Nicholl, Abigail Polin, Ben Rusholme, Steve Schulze, Jesper Sollerman, Shubham Srivastav, Kirsty Taggart, Qinan Wang, Yi Yang, David R. Young

Physics and Astronomy (Twin Cities)

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

30 Scopus citations

Abstract

We present a photometric and spectroscopic analysis of the ultraluminous and slowly evolving 03fg-like Type Ia SN 2021zny. Our observational campaign starts from ∼5.3 h after explosion (making SN 2021zny one of the earliest observed members of its class), with dense multiwavelength coverage from a variety of ground- and space-based telescopes, and is concluded with a nebular spectrum ∼10 months after peak brightness. SN 2021zny displayed several characteristics of its class, such as the peak brightness (M_B = −19.95 mag), the slow decline (Δm₁₅(B) = 0.62 mag), the blue early-time colours, the low ejecta velocities, and the presence of significant unburned material above the photosphere. However, a flux excess for the first ∼1.5 d after explosion is observed in four photometric bands, making SN 2021zny the third 03fg-like event with this distinct behaviour, while its +313 d spectrum shows prominent [O I] lines, a very unusual characteristic of thermonuclear SNe. The early flux excess can be explained as the outcome of the interaction of the ejecta with ∼ 0.04 M_☉ of H/He-poor circumstellar material at a distance of ∼10¹² cm, while the low ionization state of the late-time spectrum reveals low abundances of stable iron-peak elements. All our observations are in accordance with a progenitor system of two carbon/oxygen white dwarfs that undergo a merger event, with the disrupted white dwarf ejecting carbon-rich circumstellar material prior to the primary white dwarf detonation.

Original language	English (US)
Pages (from-to)	1162-1183
Number of pages	22
Journal	Monthly Notices of the Royal Astronomical Society
Volume	521
Issue number	1
DOIs	https://doi.org/10.1093/mnras/stad536
State	Published - May 1 2023

Bibliographical note

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

Keywords

supernovae: individual: 2021zny
transients: supernovae

Publisher link

10.1093/mnras/stad536

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Dimitriadis, G., Maguire, K., Karambelkar, V. R., Lebron, R. J., Liu, C., Kozyreva, A., Miller, A. A., Ridden-Harper, R., Anderson, J. P., Chen, T. W., Coughlin, M., Della Valle, M., Drake, A., Galbany, L., Gromadzki, M., Groom, S. L., Gutiérrez, C. P., Ihanec, N., Inserra, C., ... Young, D. R. (2023). SN 2021zny: an early flux excess combined with late-time oxygen emission suggests a double white dwarf merger event. Monthly Notices of the Royal Astronomical Society, 521(1), 1162-1183. https://doi.org/10.1093/mnras/stad536

Dimitriadis, G, Maguire, K, Karambelkar, VR, Lebron, RJ, Liu, C, Kozyreva, A, Miller, AA, Ridden-Harper, R, Anderson, JP, Chen, TW, Coughlin, M, Della Valle, M, Drake, A, Galbany, L, Gromadzki, M, Groom, SL, Gutiérrez, CP, Ihanec, N, Inserra, C, Johansson, J, Müller-Bravo, TE, Nicholl, M, Polin, A, Rusholme, B, Schulze, S, Sollerman, J, Srivastav, S, Taggart, K, Wang, Q, Yang, Y & Young, DR 2023, 'SN 2021zny: an early flux excess combined with late-time oxygen emission suggests a double white dwarf merger event', Monthly Notices of the Royal Astronomical Society, vol. 521, no. 1, pp. 1162-1183. https://doi.org/10.1093/mnras/stad536

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title = "SN 2021zny: an early flux excess combined with late-time oxygen emission suggests a double white dwarf merger event",

abstract = "We present a photometric and spectroscopic analysis of the ultraluminous and slowly evolving 03fg-like Type Ia SN 2021zny. Our observational campaign starts from ∼5.3 h after explosion (making SN 2021zny one of the earliest observed members of its class), with dense multiwavelength coverage from a variety of ground- and space-based telescopes, and is concluded with a nebular spectrum ∼10 months after peak brightness. SN 2021zny displayed several characteristics of its class, such as the peak brightness (MB = −19.95 mag), the slow decline (Δm15(B) = 0.62 mag), the blue early-time colours, the low ejecta velocities, and the presence of significant unburned material above the photosphere. However, a flux excess for the first ∼1.5 d after explosion is observed in four photometric bands, making SN 2021zny the third 03fg-like event with this distinct behaviour, while its +313 d spectrum shows prominent [O I] lines, a very unusual characteristic of thermonuclear SNe. The early flux excess can be explained as the outcome of the interaction of the ejecta with ∼ 0.04 M☉ of H/He-poor circumstellar material at a distance of ∼1012 cm, while the low ionization state of the late-time spectrum reveals low abundances of stable iron-peak elements. All our observations are in accordance with a progenitor system of two carbon/oxygen white dwarfs that undergo a merger event, with the disrupted white dwarf ejecting carbon-rich circumstellar material prior to the primary white dwarf detonation.",

keywords = "supernovae: individual: 2021zny, transients: supernovae",

author = "Georgios Dimitriadis and Kate Maguire and Karambelkar, \{Viraj R.\} and Lebron, \{Ryan J.\} and Chang Liu and Alexandra Kozyreva and Miller, \{Adam A.\} and Ryan Ridden-Harper and Anderson, \{Joseph P.\} and Chen, \{Ting Wan\} and Michael Coughlin and \{Della Valle\}, Massimo and Andrew Drake and Llu{\'i}s Galbany and Mariusz Gromadzki and Groom, \{Steven L.\} and Guti{\'e}rrez, \{Claudia P.\} and Nada Ihanec and Cosimo Inserra and Joel Johansson and M{\"u}ller-Bravo, \{Tom{\'a}s E.\} and Matt Nicholl and Abigail Polin and Ben Rusholme and Steve Schulze and Jesper Sollerman and Shubham Srivastav and Kirsty Taggart and Qinan Wang and Yi Yang and Young, \{David R.\}",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.",

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doi = "10.1093/mnras/stad536",

language = "English (US)",

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T2 - an early flux excess combined with late-time oxygen emission suggests a double white dwarf merger event

AU - Dimitriadis, Georgios

AU - Maguire, Kate

AU - Karambelkar, Viraj R.

AU - Lebron, Ryan J.

AU - Liu, Chang

AU - Kozyreva, Alexandra

AU - Miller, Adam A.

AU - Ridden-Harper, Ryan

AU - Anderson, Joseph P.

AU - Chen, Ting Wan

AU - Coughlin, Michael

AU - Della Valle, Massimo

AU - Drake, Andrew

AU - Galbany, Lluís

AU - Gromadzki, Mariusz

AU - Groom, Steven L.

AU - Gutiérrez, Claudia P.

AU - Ihanec, Nada

AU - Inserra, Cosimo

AU - Johansson, Joel

AU - Müller-Bravo, Tomás E.

AU - Nicholl, Matt

AU - Polin, Abigail

AU - Rusholme, Ben

AU - Schulze, Steve

AU - Sollerman, Jesper

AU - Srivastav, Shubham

AU - Taggart, Kirsty

AU - Wang, Qinan

AU - Yang, Yi

AU - Young, David R.

PY - 2023/5/1

Y1 - 2023/5/1

N2 - We present a photometric and spectroscopic analysis of the ultraluminous and slowly evolving 03fg-like Type Ia SN 2021zny. Our observational campaign starts from ∼5.3 h after explosion (making SN 2021zny one of the earliest observed members of its class), with dense multiwavelength coverage from a variety of ground- and space-based telescopes, and is concluded with a nebular spectrum ∼10 months after peak brightness. SN 2021zny displayed several characteristics of its class, such as the peak brightness (MB = −19.95 mag), the slow decline (Δm15(B) = 0.62 mag), the blue early-time colours, the low ejecta velocities, and the presence of significant unburned material above the photosphere. However, a flux excess for the first ∼1.5 d after explosion is observed in four photometric bands, making SN 2021zny the third 03fg-like event with this distinct behaviour, while its +313 d spectrum shows prominent [O I] lines, a very unusual characteristic of thermonuclear SNe. The early flux excess can be explained as the outcome of the interaction of the ejecta with ∼ 0.04 M☉ of H/He-poor circumstellar material at a distance of ∼1012 cm, while the low ionization state of the late-time spectrum reveals low abundances of stable iron-peak elements. All our observations are in accordance with a progenitor system of two carbon/oxygen white dwarfs that undergo a merger event, with the disrupted white dwarf ejecting carbon-rich circumstellar material prior to the primary white dwarf detonation.

AB - We present a photometric and spectroscopic analysis of the ultraluminous and slowly evolving 03fg-like Type Ia SN 2021zny. Our observational campaign starts from ∼5.3 h after explosion (making SN 2021zny one of the earliest observed members of its class), with dense multiwavelength coverage from a variety of ground- and space-based telescopes, and is concluded with a nebular spectrum ∼10 months after peak brightness. SN 2021zny displayed several characteristics of its class, such as the peak brightness (MB = −19.95 mag), the slow decline (Δm15(B) = 0.62 mag), the blue early-time colours, the low ejecta velocities, and the presence of significant unburned material above the photosphere. However, a flux excess for the first ∼1.5 d after explosion is observed in four photometric bands, making SN 2021zny the third 03fg-like event with this distinct behaviour, while its +313 d spectrum shows prominent [O I] lines, a very unusual characteristic of thermonuclear SNe. The early flux excess can be explained as the outcome of the interaction of the ejecta with ∼ 0.04 M☉ of H/He-poor circumstellar material at a distance of ∼1012 cm, while the low ionization state of the late-time spectrum reveals low abundances of stable iron-peak elements. All our observations are in accordance with a progenitor system of two carbon/oxygen white dwarfs that undergo a merger event, with the disrupted white dwarf ejecting carbon-rich circumstellar material prior to the primary white dwarf detonation.

KW - supernovae: individual: 2021zny

KW - transients: supernovae

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UR - https://www.scopus.com/pages/publications/85153468738#tab=citedBy

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JO - Monthly Notices of the Royal Astronomical Society

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IS - 1

ER -

SN 2021zny: an early flux excess combined with late-time oxygen emission suggests a double white dwarf merger event

Abstract

Bibliographical note

Keywords

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