Characterizing the Ordinary Broad-line Type Ic SN 2023pel from the Energetic GRB 230812B

Gokul P. Srinivasaragavan; Vishwajeet Swain; Brendan O’Connor; Shreya Anand; Tomás Ahumada; Daniel Perley; Robert Stein; Jesper Sollerman; Christoffer Fremling; S. Bradley Cenko; S. Antier; Nidhal Guessoum; Thomas Hussenot-Desenonges; Patrice Hello; Stephen Lesage; Erica Hammerstein; M. Coleman Miller; Igor Andreoni; Varun Bhalerao; Joshua S. Bloom; Anirban Dutta; Avishay Gal-Yam; K. Ryan Hinds; Amruta Jaodand; Mansi Kasliwal; Harsh Kumar; Alexander S. Kutyrev; Fabio Ragosta; Vikram Ravi; Kritti Sharma; Rishabh Singh Teja; Sheng Yang; G. C. Anupama; Eric C. Bellm; Michael W. Coughlin; Ashish A. Mahabal; Frank J. Masci; Utkarsh Pathak; Josiah Purdum; Oliver J. Roberts; Roger Smith; Avery Wold

doi:10.3847/2041-8213/ad16e7

Characterizing the Ordinary Broad-line Type Ic SN 2023pel from the Energetic GRB 230812B

Gokul P. Srinivasaragavan, Vishwajeet Swain, Brendan O’Connor, Shreya Anand, Tomás Ahumada, Daniel Perley, Robert Stein, Jesper Sollerman, Christoffer Fremling, S. Bradley Cenko, S. Antier, Nidhal Guessoum, Thomas Hussenot-Desenonges, Patrice Hello, Stephen Lesage, Erica Hammerstein, M. Coleman Miller, Igor Andreoni, Varun Bhalerao, Joshua S. BloomAnirban Dutta, Avishay Gal-Yam, K. Ryan Hinds, Amruta Jaodand, Mansi Kasliwal, Harsh Kumar, Alexander S. Kutyrev, Fabio Ragosta, Vikram Ravi, Kritti Sharma, Rishabh Singh Teja, Sheng Yang, G. C. Anupama, Eric C. Bellm, Michael W. Coughlin, Ashish A. Mahabal, Frank J. Masci, Utkarsh Pathak, Josiah Purdum, Oliver J. Roberts, Roger Smith, Avery Wold

Physics and Astronomy (Twin Cities)

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Abstract

We report observations of the optical counterpart of the long gamma-ray burst (GRB) GRB 230812B and its associated supernova (SN) SN 2023pel. The proximity (z = 0.36) and high energy (E _γ,iso ∼ 10⁵³ erg) make it an important event to study as a probe of the connection between massive star core collapse and relativistic jet formation. With a phenomenological power-law model for the optical afterglow, we find a late-time flattening consistent with the presence of an associated SN. SN 2023pel has an absolute peak r-band magnitude of M _r = −19.46 ± 0.18 mag (about as bright as SN 1998bw) and evolves on quicker timescales. Using a radioactive heating model, we derive a nickel mass powering the SN of M _Ni = 0.38 ± 0.01 M _⊙ and a peak bolometric luminosity of L _bol ∼ 1.3 × 10⁴³ erg s⁻¹. We confirm SN 2023pel’s classification as a broad-line Type Ic SN with a spectrum taken 15.5 days after its peak in the r band and derive a photospheric expansion velocity of v _ph = 11,300 ± 1600 km s⁻¹ at that phase. Extrapolating this velocity to the time of maximum light, we derive the ejecta mass M _ej = 1.0 ± 0.6 M _⊙ and kinetic energy E KE = 1.3 − 1.2 + 3.3 × 10 51 erg . We find that GRB 230812B/SN 2023pel has SN properties that are mostly consistent with the overall GRB-SN population. The lack of correlations found in the GRB-SN population between SN brightness and E _γ,iso for their associated GRBs across a broad range of 7 orders of magnitude provides further evidence that the central engine powering the relativistic ejecta is not coupled to the SN powering mechanism in GRB-SN systems.

Original language	English (US)
Article number	L18
Journal	Astrophysical Journal Letters
Volume	960
Issue number	2
DOIs	https://doi.org/10.3847/2041-8213/ad16e7
State	Published - Jan 1 2024

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© 2024. The Author(s). Published by the American Astronomical Society.

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Srinivasaragavan, G. P., Swain, V., O’Connor, B., Anand, S., Ahumada, T., Perley, D., Stein, R., Sollerman, J., Fremling, C., Cenko, S. B., Antier, S., Guessoum, N., Hussenot-Desenonges, T., Hello, P., Lesage, S., Hammerstein, E., Miller, M. C., Andreoni, I., Bhalerao, V., ... Wold, A. (2024). Characterizing the Ordinary Broad-line Type Ic SN 2023pel from the Energetic GRB 230812B. Astrophysical Journal Letters, 960(2), Article L18. https://doi.org/10.3847/2041-8213/ad16e7

Srinivasaragavan, GP, Swain, V, O’Connor, B, Anand, S, Ahumada, T, Perley, D, Stein, R, Sollerman, J, Fremling, C, Cenko, SB, Antier, S, Guessoum, N, Hussenot-Desenonges, T, Hello, P, Lesage, S, Hammerstein, E, Miller, MC, Andreoni, I, Bhalerao, V, Bloom, JS, Dutta, A, Gal-Yam, A, Hinds, KR, Jaodand, A, Kasliwal, M, Kumar, H, Kutyrev, AS, Ragosta, F, Ravi, V, Sharma, K, Singh Teja, R, Yang, S, Anupama, GC, Bellm, EC, Coughlin, MW, Mahabal, AA, Masci, FJ, Pathak, U, Purdum, J, Roberts, OJ, Smith, R & Wold, A 2024, 'Characterizing the Ordinary Broad-line Type Ic SN 2023pel from the Energetic GRB 230812B', Astrophysical Journal Letters, vol. 960, no. 2, L18. https://doi.org/10.3847/2041-8213/ad16e7

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title = "Characterizing the Ordinary Broad-line Type Ic SN 2023pel from the Energetic GRB 230812B",

abstract = "We report observations of the optical counterpart of the long gamma-ray burst (GRB) GRB 230812B and its associated supernova (SN) SN 2023pel. The proximity (z = 0.36) and high energy (E γ,iso ∼ 1053 erg) make it an important event to study as a probe of the connection between massive star core collapse and relativistic jet formation. With a phenomenological power-law model for the optical afterglow, we find a late-time flattening consistent with the presence of an associated SN. SN 2023pel has an absolute peak r-band magnitude of M r = −19.46 ± 0.18 mag (about as bright as SN 1998bw) and evolves on quicker timescales. Using a radioactive heating model, we derive a nickel mass powering the SN of M Ni = 0.38 ± 0.01 M ⊙ and a peak bolometric luminosity of L bol ∼ 1.3 × 1043 erg s−1. We confirm SN 2023pel{\textquoteright}s classification as a broad-line Type Ic SN with a spectrum taken 15.5 days after its peak in the r band and derive a photospheric expansion velocity of v ph = 11,300 ± 1600 km s−1 at that phase. Extrapolating this velocity to the time of maximum light, we derive the ejecta mass M ej = 1.0 ± 0.6 M ⊙ and kinetic energy E KE = 1.3 − 1.2 + 3.3 × 10 51 erg . We find that GRB 230812B/SN 2023pel has SN properties that are mostly consistent with the overall GRB-SN population. The lack of correlations found in the GRB-SN population between SN brightness and E γ,iso for their associated GRBs across a broad range of 7 orders of magnitude provides further evidence that the central engine powering the relativistic ejecta is not coupled to the SN powering mechanism in GRB-SN systems.",

author = "Srinivasaragavan, {Gokul P.} and Vishwajeet Swain and Brendan O{\textquoteright}Connor and Shreya Anand and Tom{\'a}s Ahumada and Daniel Perley and Robert Stein and Jesper Sollerman and Christoffer Fremling and Cenko, {S. Bradley} and S. Antier and Nidhal Guessoum and Thomas Hussenot-Desenonges and Patrice Hello and Stephen Lesage and Erica Hammerstein and Miller, {M. Coleman} and Igor Andreoni and Varun Bhalerao and Bloom, {Joshua S.} and Anirban Dutta and Avishay Gal-Yam and Hinds, {K. Ryan} and Amruta Jaodand and Mansi Kasliwal and Harsh Kumar and Kutyrev, {Alexander S.} and Fabio Ragosta and Vikram Ravi and Kritti Sharma and {Singh Teja}, Rishabh and Sheng Yang and Anupama, {G. C.} and Bellm, {Eric C.} and Coughlin, {Michael W.} and Mahabal, {Ashish A.} and Masci, {Frank J.} and Utkarsh Pathak and Josiah Purdum and Roberts, {Oliver J.} and Roger Smith and Avery Wold",

note = "Publisher Copyright: {\textcopyright} 2024. The Author(s). Published by the American Astronomical Society.",

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doi = "10.3847/2041-8213/ad16e7",

language = "English (US)",

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T1 - Characterizing the Ordinary Broad-line Type Ic SN 2023pel from the Energetic GRB 230812B

AU - Srinivasaragavan, Gokul P.

AU - Swain, Vishwajeet

AU - O’Connor, Brendan

AU - Anand, Shreya

AU - Ahumada, Tomás

AU - Perley, Daniel

AU - Stein, Robert

AU - Sollerman, Jesper

AU - Fremling, Christoffer

AU - Cenko, S. Bradley

AU - Antier, S.

AU - Guessoum, Nidhal

AU - Hussenot-Desenonges, Thomas

AU - Hello, Patrice

AU - Lesage, Stephen

AU - Hammerstein, Erica

AU - Miller, M. Coleman

AU - Andreoni, Igor

AU - Bhalerao, Varun

AU - Bloom, Joshua S.

AU - Dutta, Anirban

AU - Gal-Yam, Avishay

AU - Hinds, K. Ryan

AU - Jaodand, Amruta

AU - Kasliwal, Mansi

AU - Kumar, Harsh

AU - Kutyrev, Alexander S.

AU - Ragosta, Fabio

AU - Ravi, Vikram

AU - Sharma, Kritti

AU - Singh Teja, Rishabh

AU - Yang, Sheng

AU - Anupama, G. C.

AU - Bellm, Eric C.

AU - Coughlin, Michael W.

AU - Mahabal, Ashish A.

AU - Masci, Frank J.

AU - Pathak, Utkarsh

AU - Purdum, Josiah

AU - Roberts, Oliver J.

AU - Smith, Roger

AU - Wold, Avery

PY - 2024/1/1

Y1 - 2024/1/1

N2 - We report observations of the optical counterpart of the long gamma-ray burst (GRB) GRB 230812B and its associated supernova (SN) SN 2023pel. The proximity (z = 0.36) and high energy (E γ,iso ∼ 1053 erg) make it an important event to study as a probe of the connection between massive star core collapse and relativistic jet formation. With a phenomenological power-law model for the optical afterglow, we find a late-time flattening consistent with the presence of an associated SN. SN 2023pel has an absolute peak r-band magnitude of M r = −19.46 ± 0.18 mag (about as bright as SN 1998bw) and evolves on quicker timescales. Using a radioactive heating model, we derive a nickel mass powering the SN of M Ni = 0.38 ± 0.01 M ⊙ and a peak bolometric luminosity of L bol ∼ 1.3 × 1043 erg s−1. We confirm SN 2023pel’s classification as a broad-line Type Ic SN with a spectrum taken 15.5 days after its peak in the r band and derive a photospheric expansion velocity of v ph = 11,300 ± 1600 km s−1 at that phase. Extrapolating this velocity to the time of maximum light, we derive the ejecta mass M ej = 1.0 ± 0.6 M ⊙ and kinetic energy E KE = 1.3 − 1.2 + 3.3 × 10 51 erg . We find that GRB 230812B/SN 2023pel has SN properties that are mostly consistent with the overall GRB-SN population. The lack of correlations found in the GRB-SN population between SN brightness and E γ,iso for their associated GRBs across a broad range of 7 orders of magnitude provides further evidence that the central engine powering the relativistic ejecta is not coupled to the SN powering mechanism in GRB-SN systems.

AB - We report observations of the optical counterpart of the long gamma-ray burst (GRB) GRB 230812B and its associated supernova (SN) SN 2023pel. The proximity (z = 0.36) and high energy (E γ,iso ∼ 1053 erg) make it an important event to study as a probe of the connection between massive star core collapse and relativistic jet formation. With a phenomenological power-law model for the optical afterglow, we find a late-time flattening consistent with the presence of an associated SN. SN 2023pel has an absolute peak r-band magnitude of M r = −19.46 ± 0.18 mag (about as bright as SN 1998bw) and evolves on quicker timescales. Using a radioactive heating model, we derive a nickel mass powering the SN of M Ni = 0.38 ± 0.01 M ⊙ and a peak bolometric luminosity of L bol ∼ 1.3 × 1043 erg s−1. We confirm SN 2023pel’s classification as a broad-line Type Ic SN with a spectrum taken 15.5 days after its peak in the r band and derive a photospheric expansion velocity of v ph = 11,300 ± 1600 km s−1 at that phase. Extrapolating this velocity to the time of maximum light, we derive the ejecta mass M ej = 1.0 ± 0.6 M ⊙ and kinetic energy E KE = 1.3 − 1.2 + 3.3 × 10 51 erg . We find that GRB 230812B/SN 2023pel has SN properties that are mostly consistent with the overall GRB-SN population. The lack of correlations found in the GRB-SN population between SN brightness and E γ,iso for their associated GRBs across a broad range of 7 orders of magnitude provides further evidence that the central engine powering the relativistic ejecta is not coupled to the SN powering mechanism in GRB-SN systems.

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Characterizing the Ordinary Broad-line Type Ic SN 2023pel from the Energetic GRB 230812B

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