Limit on supernova emission in the brightest gamma-ray burst, GRB 221009A

Manisha Shrestha; David J. Sand; Kate D. Alexander; K. Azalee Bostroem; Griffin Hosseinzadeh; Jeniveve Pearson; Mojgan Aghakhanloo; József Vinkó; Jennifer E. Andrews; Jacob E. Jencson; M. J. Lundquist; Samuel Wyatt; D. Andrew Howell; Curtis McCully; Estefania Padilla Gonzalez; Craig Pellegrino; Giacomo Terreran; Daichi Hiramatsu; Megan Newsome; Joseph Farah; Saurabh W. Jha; Nathan Smith; J. Craig Wheeler; Clara Martínez-Vázquez; Julio A. Carballo-Bello; Alex Drlica-Wagner; David J. James; Burçin Mutlu-Pakdil; Guy S. Stringfellow; Joanna D. Sakowska; Noelia E. D. Noël; Clécio R. Bom; Kyler Kuehn

doi:10.3847/2041-8213/acbd50

Limit on supernova emission in the brightest gamma-ray burst, GRB 221009A

Manisha Shrestha^*, David J. Sand, Kate D. Alexander, K. Azalee Bostroem, Griffin Hosseinzadeh, Jeniveve Pearson, Mojgan Aghakhanloo, József Vinkó, Jennifer E. Andrews, Jacob E. Jencson, M. J. Lundquist, Samuel Wyatt, D. Andrew Howell, Curtis McCully, Estefania Padilla Gonzalez, Craig Pellegrino, Giacomo Terreran, Daichi Hiramatsu, Megan Newsome, Joseph FarahSaurabh W. Jha, Nathan Smith, J. Craig Wheeler, Clara Martínez-Vázquez, Julio A. Carballo-Bello, Alex Drlica-Wagner, David J. James, Burçin Mutlu-Pakdil, Guy S. Stringfellow, Joanna D. Sakowska, Noelia E. D. Noël, Clécio R. Bom, Kyler Kuehn

^*Corresponding author for this work

Australian Astronomical Optics

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Abstract

We present photometric and spectroscopic observations of the extraordinary gamma-ray burst (GRB) 221009A in search of an associated supernova. Some past GRBs have shown bumps in the optical light curve that coincide with the emergence of supernova spectral features, but we do not detect any significant light-curve features in GRB 221009A, nor do we detect any clear sign of supernova spectral features. Using two well-studied GRB-associated supernovae (SN 2013dx, M r , max = − 19.54 ; SN 2016jca, M r , max = − 19.04 ) at a similar redshift as GRB 221009A (z = 0.151), we modeled how the emergence of a supernova would affect the light curve. If we assume the GRB afterglow to decay at the same rate as the X-ray data, the combination of afterglow and a supernova component is fainter than the observed GRB brightness. For the case where we assume the best-fit power law to the optical data as the GRB afterglow component, a supernova contribution should have created a clear bump in the light curve, assuming only extinction from the Milky Way. If we assume a higher extinction of E(B − V) = 1.74 mag (as has been suggested elsewhere), the supernova contribution would have been hard to detect, with a limit on the associated supernova of M r , max ≈ − 19.54. We do not observe any clear supernova features in our spectra, which were taken around the time of expected maximum light. The lack of a bright supernova associated with GRB 221009A may indicate that the energy from the explosion is mostly concentrated in the jet, leaving a lower energy budget available for the supernova.

Original language	English
Article number	L25
Pages (from-to)	1-15
Number of pages	15
Journal	Astrophysical Journal Letters
Volume	946
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/acbd50
Publication status	Published - 20 Mar 2023

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Copyright the Author(s) 2023. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

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Shrestha, M., Sand, D. J., Alexander, K. D., Bostroem, K. A., Hosseinzadeh, G., Pearson, J., Aghakhanloo, M., Vinkó, J., Andrews, J. E., Jencson, J. E., Lundquist, M. J., Wyatt, S., Howell, D. A., McCully, C., Gonzalez, E. P., Pellegrino, C., Terreran, G., Hiramatsu, D., Newsome, M., ... Kuehn, K. (2023). Limit on supernova emission in the brightest gamma-ray burst, GRB 221009A. Astrophysical Journal Letters, 946(1), 1-15. Article L25. https://doi.org/10.3847/2041-8213/acbd50

@article{e6547a8693fc48a9a4b3bc0db1748295,

title = "Limit on supernova emission in the brightest gamma-ray burst, GRB 221009A",

abstract = "We present photometric and spectroscopic observations of the extraordinary gamma-ray burst (GRB) 221009A in search of an associated supernova. Some past GRBs have shown bumps in the optical light curve that coincide with the emergence of supernova spectral features, but we do not detect any significant light-curve features in GRB 221009A, nor do we detect any clear sign of supernova spectral features. Using two well-studied GRB-associated supernovae (SN 2013dx, M r , max = − 19.54 ; SN 2016jca, M r , max = − 19.04 ) at a similar redshift as GRB 221009A (z = 0.151), we modeled how the emergence of a supernova would affect the light curve. If we assume the GRB afterglow to decay at the same rate as the X-ray data, the combination of afterglow and a supernova component is fainter than the observed GRB brightness. For the case where we assume the best-fit power law to the optical data as the GRB afterglow component, a supernova contribution should have created a clear bump in the light curve, assuming only extinction from the Milky Way. If we assume a higher extinction of E(B − V) = 1.74 mag (as has been suggested elsewhere), the supernova contribution would have been hard to detect, with a limit on the associated supernova of M r , max ≈ − 19.54. We do not observe any clear supernova features in our spectra, which were taken around the time of expected maximum light. The lack of a bright supernova associated with GRB 221009A may indicate that the energy from the explosion is mostly concentrated in the jet, leaving a lower energy budget available for the supernova.",

author = "Manisha Shrestha and Sand, {David J.} and Alexander, {Kate D.} and Bostroem, {K. Azalee} and Griffin Hosseinzadeh and Jeniveve Pearson and Mojgan Aghakhanloo and J{\'o}zsef Vink{\'o} and Andrews, {Jennifer E.} and Jencson, {Jacob E.} and Lundquist, {M. J.} and Samuel Wyatt and Howell, {D. Andrew} and Curtis McCully and Gonzalez, {Estefania Padilla} and Craig Pellegrino and Giacomo Terreran and Daichi Hiramatsu and Megan Newsome and Joseph Farah and Jha, {Saurabh W.} and Nathan Smith and Wheeler, {J. Craig} and Clara Mart{\'i}nez-V{\'a}zquez and Carballo-Bello, {Julio A.} and Alex Drlica-Wagner and James, {David J.} and Bur{\c c}in Mutlu-Pakdil and Stringfellow, {Guy S.} and Sakowska, {Joanna D.} and No{\"e}l, {Noelia E. D.} and Bom, {Cl{\'e}cio R.} and Kyler Kuehn",

note = "Copyright the Author(s) 2023. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.",

year = "2023",

month = mar,

day = "20",

doi = "10.3847/2041-8213/acbd50",

language = "English",

volume = "946",

pages = "1--15",

journal = "Astrophysical Journal Letters",

issn = "2041-8205",

publisher = "Institute of Physics Publishing",

number = "1",

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Shrestha, M, Sand, DJ, Alexander, KD, Bostroem, KA, Hosseinzadeh, G, Pearson, J, Aghakhanloo, M, Vinkó, J, Andrews, JE, Jencson, JE, Lundquist, MJ, Wyatt, S, Howell, DA, McCully, C, Gonzalez, EP, Pellegrino, C, Terreran, G, Hiramatsu, D, Newsome, M, Farah, J, Jha, SW, Smith, N, Wheeler, JC, Martínez-Vázquez, C, Carballo-Bello, JA, Drlica-Wagner, A, James, DJ, Mutlu-Pakdil, B, Stringfellow, GS, Sakowska, JD, Noël, NED, Bom, CR & Kuehn, K 2023, 'Limit on supernova emission in the brightest gamma-ray burst, GRB 221009A', Astrophysical Journal Letters, vol. 946, no. 1, L25, pp. 1-15. https://doi.org/10.3847/2041-8213/acbd50

TY - JOUR

T1 - Limit on supernova emission in the brightest gamma-ray burst, GRB 221009A

AU - Shrestha, Manisha

AU - Sand, David J.

AU - Alexander, Kate D.

AU - Bostroem, K. Azalee

AU - Hosseinzadeh, Griffin

AU - Pearson, Jeniveve

AU - Aghakhanloo, Mojgan

AU - Vinkó, József

AU - Andrews, Jennifer E.

AU - Jencson, Jacob E.

AU - Lundquist, M. J.

AU - Wyatt, Samuel

AU - Howell, D. Andrew

AU - McCully, Curtis

AU - Gonzalez, Estefania Padilla

AU - Pellegrino, Craig

AU - Terreran, Giacomo

AU - Hiramatsu, Daichi

AU - Newsome, Megan

AU - Farah, Joseph

AU - Jha, Saurabh W.

AU - Smith, Nathan

AU - Wheeler, J. Craig

AU - Martínez-Vázquez, Clara

AU - Carballo-Bello, Julio A.

AU - Drlica-Wagner, Alex

AU - James, David J.

AU - Mutlu-Pakdil, Burçin

AU - Stringfellow, Guy S.

AU - Sakowska, Joanna D.

AU - Noël, Noelia E. D.

AU - Bom, Clécio R.

AU - Kuehn, Kyler

N1 - Copyright the Author(s) 2023. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

PY - 2023/3/20

Y1 - 2023/3/20

N2 - We present photometric and spectroscopic observations of the extraordinary gamma-ray burst (GRB) 221009A in search of an associated supernova. Some past GRBs have shown bumps in the optical light curve that coincide with the emergence of supernova spectral features, but we do not detect any significant light-curve features in GRB 221009A, nor do we detect any clear sign of supernova spectral features. Using two well-studied GRB-associated supernovae (SN 2013dx, M r , max = − 19.54 ; SN 2016jca, M r , max = − 19.04 ) at a similar redshift as GRB 221009A (z = 0.151), we modeled how the emergence of a supernova would affect the light curve. If we assume the GRB afterglow to decay at the same rate as the X-ray data, the combination of afterglow and a supernova component is fainter than the observed GRB brightness. For the case where we assume the best-fit power law to the optical data as the GRB afterglow component, a supernova contribution should have created a clear bump in the light curve, assuming only extinction from the Milky Way. If we assume a higher extinction of E(B − V) = 1.74 mag (as has been suggested elsewhere), the supernova contribution would have been hard to detect, with a limit on the associated supernova of M r , max ≈ − 19.54. We do not observe any clear supernova features in our spectra, which were taken around the time of expected maximum light. The lack of a bright supernova associated with GRB 221009A may indicate that the energy from the explosion is mostly concentrated in the jet, leaving a lower energy budget available for the supernova.

AB - We present photometric and spectroscopic observations of the extraordinary gamma-ray burst (GRB) 221009A in search of an associated supernova. Some past GRBs have shown bumps in the optical light curve that coincide with the emergence of supernova spectral features, but we do not detect any significant light-curve features in GRB 221009A, nor do we detect any clear sign of supernova spectral features. Using two well-studied GRB-associated supernovae (SN 2013dx, M r , max = − 19.54 ; SN 2016jca, M r , max = − 19.04 ) at a similar redshift as GRB 221009A (z = 0.151), we modeled how the emergence of a supernova would affect the light curve. If we assume the GRB afterglow to decay at the same rate as the X-ray data, the combination of afterglow and a supernova component is fainter than the observed GRB brightness. For the case where we assume the best-fit power law to the optical data as the GRB afterglow component, a supernova contribution should have created a clear bump in the light curve, assuming only extinction from the Milky Way. If we assume a higher extinction of E(B − V) = 1.74 mag (as has been suggested elsewhere), the supernova contribution would have been hard to detect, with a limit on the associated supernova of M r , max ≈ − 19.54. We do not observe any clear supernova features in our spectra, which were taken around the time of expected maximum light. The lack of a bright supernova associated with GRB 221009A may indicate that the energy from the explosion is mostly concentrated in the jet, leaving a lower energy budget available for the supernova.

UR - http://www.scopus.com/inward/record.url?scp=85151363287&partnerID=8YFLogxK

U2 - 10.3847/2041-8213/acbd50

DO - 10.3847/2041-8213/acbd50

M3 - Article

AN - SCOPUS:85151363287

SN - 2041-8205

VL - 946

SP - 1

EP - 15

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 1

M1 - L25

ER -

Limit on supernova emission in the brightest gamma-ray burst, GRB 221009A

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