GRB 250702B: discovery of a gamma-ray burst from a black hole falling into a star

Eliza Neights; Eric Burns; Chris L. Fryer; Dmitry Svinkin; Suman Bala; Rachel Hamburg; Ramandeep Gill; Michela Negro; Megan Masterson; James DeLaunay; David J. Lawrence; Sophie E.D. Abrahams; Yuta Kawakubo; Paz Beniamini; Christian Aa Diget; Dmitry Frederiks; John Goldsten; Adam Goldstein; Alexander D. Hall-Smith; Erin Kara; Alison M. Laird; Gavin P. Lamb; Oliver J. Roberts; Ryan Seeb; V. Ashley Villar; Aldana Holzmann Airasca; Joseph R. Barber; P. Narayana Bhat; Elisabetta Bissaldi; Michael S. Briggs; William H. Cleveland; Sarah Dalessi; Davide Depalo; Misty M. Giles; Jonathan Granot; Boyan A. Hristov; C. Michelle Hui; Andreas Von Kienlin; Carolyn Kierans; Daniel Kocevski; Stephen Lesage; Alexandra L. Lysenko; Bagrat Mailyan; Christian Malacaria; Oindabi Mukherjee; Tyler Parsotan; Anna Ridnaia; Samuele Ronchini; Lorenzo Scotton; Aaron C. Trigg; Anastasia Tsvetkova; Mikhail Ulanov; Péter Veres; Maia Williams; Colleen A. Wilson-Hodge; Joshua Wood

doi:10.1093/mnras/staf2019

GRB 250702B: discovery of a gamma-ray burst from a black hole falling into a star

Eliza Neights
, Eric Burns
, Chris L. Fryer
, Dmitry Svinkin
, Suman Bala
, Rachel Hamburg
, Ramandeep Gill
, Michela Negro
, Megan Masterson
, James DeLaunay
, David J. Lawrence
, Sophie E.D. Abrahams
, Yuta Kawakubo
, Paz Beniamini
, Christian Aa Diget
, Dmitry Frederiks
, John Goldsten
, Adam Goldstein
, Alexander D. Hall-Smith
, Erin Kara

Alison M. Laird, Gavin P. Lamb, Oliver J. Roberts, Ryan Seeb, V. Ashley Villar, Aldana Holzmann Airasca, Joseph R. Barber, P. Narayana Bhat, Elisabetta Bissaldi, Michael S. Briggs, William H. Cleveland, Sarah Dalessi, Davide Depalo, Misty M. Giles, Jonathan Granot, Boyan A. Hristov, C. Michelle Hui, Andreas Von Kienlin, Carolyn Kierans, Daniel Kocevski, Stephen Lesage, Alexandra L. Lysenko, Bagrat Mailyan, Christian Malacaria, Oindabi Mukherjee, Tyler Parsotan, Anna Ridnaia, Samuele Ronchini, Lorenzo Scotton, Aaron C. Trigg, Anastasia Tsvetkova, Mikhail Ulanov, Péter Veres, Maia Williams, Colleen A. Wilson-Hodge, Joshua Wood

Physics

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

Abstract

Gamma-ray bursts are the most luminous electromagnetic events in the Universe. Their prompt gamma-ray emission has typical durations between a fraction of a second and several minutes. A rare subset of these events have durations in excess of a thousand seconds, referred to as ultra-long gamma-ray bursts. Here, we report the discovery of the longest gamma-ray burst ever seen with a ∼25000 s gamma-ray duration, GRB 250702B, and characterize this event using data from four instruments in the InterPlanetary Network and the Monitor of All-sky X-ray Image. We find a hard spectrum, subsecond variability, and high total energy, which are only known to arise from ultrarelativistic jets powered by a rapidly spinning stellar-mass central engine. These properties and the extreme duration are together incompatible with all confirmed gamma-ray burst progenitors and nearly all models in the literature. This burst is naturally explained with the helium merger model, where a field binary ends when a black hole falls into a stripped star and proceeds to consume and explode it from within. Under this paradigm, GRB 250702B adds to the growing evidence that helium stars expand and that some ultra-long GRBs have similar evolutionary pathways as collapsars, stellar-mass gravitational wave sources, and potentially rare types of supernovae.

Original language	English
Article number	staf2019
Journal	Monthly Notices of the Royal Astronomical Society
Volume	545
Issue number	2
DOIs	https://doi.org/10.1093/mnras/staf2019
State	Published - 1 Jan 2026

Bibliographical note

Publisher Copyright:
© Published by Oxford University Press on behalf of Royal Astronomical Society 2025.

Keywords

gamma-ray burst: individual: GRB 250702B
gamma-rays: general
methods: observational

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10.1093/mnras/staf2019

Cite this

Neights, E., Burns, E., Fryer, C. L., Svinkin, D., Bala, S., Hamburg, R., Gill, R., Negro, M., Masterson, M., DeLaunay, J., Lawrence, D. J., Abrahams, S. E. D., Kawakubo, Y., Beniamini, P., Diget, C. A., Frederiks, D., Goldsten, J., Goldstein, A., Hall-Smith, A. D., ... Wood, J. (2026). GRB 250702B: discovery of a gamma-ray burst from a black hole falling into a star. Monthly Notices of the Royal Astronomical Society, 545(2), Article staf2019. https://doi.org/10.1093/mnras/staf2019

@article{2f32311496c64aa1a563eb433c1cd6b6,

title = "GRB 250702B: discovery of a gamma-ray burst from a black hole falling into a star",

abstract = "Gamma-ray bursts are the most luminous electromagnetic events in the Universe. Their prompt gamma-ray emission has typical durations between a fraction of a second and several minutes. A rare subset of these events have durations in excess of a thousand seconds, referred to as ultra-long gamma-ray bursts. Here, we report the discovery of the longest gamma-ray burst ever seen with a ∼25000 s gamma-ray duration, GRB 250702B, and characterize this event using data from four instruments in the InterPlanetary Network and the Monitor of All-sky X-ray Image. We find a hard spectrum, subsecond variability, and high total energy, which are only known to arise from ultrarelativistic jets powered by a rapidly spinning stellar-mass central engine. These properties and the extreme duration are together incompatible with all confirmed gamma-ray burst progenitors and nearly all models in the literature. This burst is naturally explained with the helium merger model, where a field binary ends when a black hole falls into a stripped star and proceeds to consume and explode it from within. Under this paradigm, GRB 250702B adds to the growing evidence that helium stars expand and that some ultra-long GRBs have similar evolutionary pathways as collapsars, stellar-mass gravitational wave sources, and potentially rare types of supernovae.",

keywords = "gamma-ray burst: individual: GRB 250702B, gamma-rays: general, methods: observational",

author = "Eliza Neights and Eric Burns and Fryer, \{Chris L.\} and Dmitry Svinkin and Suman Bala and Rachel Hamburg and Ramandeep Gill and Michela Negro and Megan Masterson and James DeLaunay and Lawrence, \{David J.\} and Abrahams, \{Sophie E.D.\} and Yuta Kawakubo and Paz Beniamini and Diget, \{Christian Aa\} and Dmitry Frederiks and John Goldsten and Adam Goldstein and Hall-Smith, \{Alexander D.\} and Erin Kara and Laird, \{Alison M.\} and Lamb, \{Gavin P.\} and Roberts, \{Oliver J.\} and Ryan Seeb and Villar, \{V. Ashley\} and Airasca, \{Aldana Holzmann\} and Barber, \{Joseph R.\} and Bhat, \{P. Narayana\} and Elisabetta Bissaldi and Briggs, \{Michael S.\} and Cleveland, \{William H.\} and Sarah Dalessi and Davide Depalo and Giles, \{Misty M.\} and Jonathan Granot and Hristov, \{Boyan A.\} and Hui, \{C. Michelle\} and \{Von Kienlin\}, Andreas and Carolyn Kierans and Daniel Kocevski and Stephen Lesage and Lysenko, \{Alexandra L.\} and Bagrat Mailyan and Christian Malacaria and Oindabi Mukherjee and Tyler Parsotan and Anna Ridnaia and Samuele Ronchini and Lorenzo Scotton and Trigg, \{Aaron C.\} and Anastasia Tsvetkova and Mikhail Ulanov and P{\'e}ter Veres and Maia Williams and Wilson-Hodge, \{Colleen A.\} and Joshua Wood",

note = "Publisher Copyright: {\textcopyright} Published by Oxford University Press on behalf of Royal Astronomical Society 2025.",

year = "2026",

month = jan,

day = "1",

doi = "10.1093/mnras/staf2019",

language = "אנגלית",

volume = "545",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press",

number = "2",

}

Neights, E, Burns, E, Fryer, CL, Svinkin, D, Bala, S, Hamburg, R, Gill, R, Negro, M, Masterson, M, DeLaunay, J, Lawrence, DJ, Abrahams, SED, Kawakubo, Y, Beniamini, P, Diget, CA, Frederiks, D, Goldsten, J, Goldstein, A, Hall-Smith, AD, Kara, E, Laird, AM, Lamb, GP, Roberts, OJ, Seeb, R, Villar, VA, Airasca, AH, Barber, JR, Bhat, PN, Bissaldi, E, Briggs, MS, Cleveland, WH, Dalessi, S, Depalo, D, Giles, MM, Granot, J, Hristov, BA, Hui, CM, Von Kienlin, A, Kierans, C, Kocevski, D, Lesage, S, Lysenko, AL, Mailyan, B, Malacaria, C, Mukherjee, O, Parsotan, T, Ridnaia, A, Ronchini, S, Scotton, L, Trigg, AC, Tsvetkova, A, Ulanov, M, Veres, P, Williams, M, Wilson-Hodge, CA & Wood, J 2026, 'GRB 250702B: discovery of a gamma-ray burst from a black hole falling into a star', Monthly Notices of the Royal Astronomical Society, vol. 545, no. 2, staf2019. https://doi.org/10.1093/mnras/staf2019

TY - JOUR

T1 - GRB 250702B

T2 - discovery of a gamma-ray burst from a black hole falling into a star

AU - Neights, Eliza

AU - Burns, Eric

AU - Fryer, Chris L.

AU - Svinkin, Dmitry

AU - Bala, Suman

AU - Hamburg, Rachel

AU - Gill, Ramandeep

AU - Negro, Michela

AU - Masterson, Megan

AU - DeLaunay, James

AU - Lawrence, David J.

AU - Abrahams, Sophie E.D.

AU - Kawakubo, Yuta

AU - Beniamini, Paz

AU - Diget, Christian Aa

AU - Frederiks, Dmitry

AU - Goldsten, John

AU - Goldstein, Adam

AU - Hall-Smith, Alexander D.

AU - Kara, Erin

AU - Laird, Alison M.

AU - Lamb, Gavin P.

AU - Roberts, Oliver J.

AU - Seeb, Ryan

AU - Villar, V. Ashley

AU - Airasca, Aldana Holzmann

AU - Barber, Joseph R.

AU - Bhat, P. Narayana

AU - Bissaldi, Elisabetta

AU - Briggs, Michael S.

AU - Cleveland, William H.

AU - Dalessi, Sarah

AU - Depalo, Davide

AU - Giles, Misty M.

AU - Granot, Jonathan

AU - Hristov, Boyan A.

AU - Hui, C. Michelle

AU - Von Kienlin, Andreas

AU - Kierans, Carolyn

AU - Kocevski, Daniel

AU - Lesage, Stephen

AU - Lysenko, Alexandra L.

AU - Mailyan, Bagrat

AU - Malacaria, Christian

AU - Mukherjee, Oindabi

AU - Parsotan, Tyler

AU - Ridnaia, Anna

AU - Ronchini, Samuele

AU - Scotton, Lorenzo

AU - Trigg, Aaron C.

AU - Tsvetkova, Anastasia

AU - Ulanov, Mikhail

AU - Veres, Péter

AU - Williams, Maia

AU - Wilson-Hodge, Colleen A.

AU - Wood, Joshua

PY - 2026/1/1

Y1 - 2026/1/1

N2 - Gamma-ray bursts are the most luminous electromagnetic events in the Universe. Their prompt gamma-ray emission has typical durations between a fraction of a second and several minutes. A rare subset of these events have durations in excess of a thousand seconds, referred to as ultra-long gamma-ray bursts. Here, we report the discovery of the longest gamma-ray burst ever seen with a ∼25000 s gamma-ray duration, GRB 250702B, and characterize this event using data from four instruments in the InterPlanetary Network and the Monitor of All-sky X-ray Image. We find a hard spectrum, subsecond variability, and high total energy, which are only known to arise from ultrarelativistic jets powered by a rapidly spinning stellar-mass central engine. These properties and the extreme duration are together incompatible with all confirmed gamma-ray burst progenitors and nearly all models in the literature. This burst is naturally explained with the helium merger model, where a field binary ends when a black hole falls into a stripped star and proceeds to consume and explode it from within. Under this paradigm, GRB 250702B adds to the growing evidence that helium stars expand and that some ultra-long GRBs have similar evolutionary pathways as collapsars, stellar-mass gravitational wave sources, and potentially rare types of supernovae.

AB - Gamma-ray bursts are the most luminous electromagnetic events in the Universe. Their prompt gamma-ray emission has typical durations between a fraction of a second and several minutes. A rare subset of these events have durations in excess of a thousand seconds, referred to as ultra-long gamma-ray bursts. Here, we report the discovery of the longest gamma-ray burst ever seen with a ∼25000 s gamma-ray duration, GRB 250702B, and characterize this event using data from four instruments in the InterPlanetary Network and the Monitor of All-sky X-ray Image. We find a hard spectrum, subsecond variability, and high total energy, which are only known to arise from ultrarelativistic jets powered by a rapidly spinning stellar-mass central engine. These properties and the extreme duration are together incompatible with all confirmed gamma-ray burst progenitors and nearly all models in the literature. This burst is naturally explained with the helium merger model, where a field binary ends when a black hole falls into a stripped star and proceeds to consume and explode it from within. Under this paradigm, GRB 250702B adds to the growing evidence that helium stars expand and that some ultra-long GRBs have similar evolutionary pathways as collapsars, stellar-mass gravitational wave sources, and potentially rare types of supernovae.

KW - gamma-ray burst: individual: GRB 250702B

KW - gamma-rays: general

KW - methods: observational

UR - https://www.scopus.com/pages/publications/105024982142

U2 - 10.1093/mnras/staf2019

DO - 10.1093/mnras/staf2019

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AN - SCOPUS:105024982142

SN - 0035-8711

VL - 545

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

M1 - staf2019

ER -

GRB 250702B: discovery of a gamma-ray burst from a black hole falling into a star

Abstract

Bibliographical note

Keywords

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