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Published September 2021 | Supplemental Material + Submitted
Journal Article Open

Discovery and confirmation of the shortest gamma-ray burst from a collapsar

Ahumada, Tomás ORCID icon
Singer, Leo P. ORCID icon
Anand, Shreya ORCID icon
Coughlin, Michael W. ORCID icon
Kasliwal, Mansi M. ORCID icon
Ryan, Geoffrey ORCID icon
Andreoni, Igor ORCID icon
Cenko, S. Bradley ORCID icon
Fremling, Christoffer ORCID icon
Kumar, Harsh ORCID icon
Pang, Peter T. H. ORCID icon
Burns, Eric ORCID icon
Cunningham, Virginia ORCID icon
Dichiara, Simone ORCID icon
Dietrich, Tim ORCID icon
Svinkin, Dmitry S. ORCID icon
Almualla, Mouza ORCID icon
Castro-Tirado, Alberto J.
De, Kishalay ORCID icon
Dunwoody, Rachel ORCID icon
Gatkine, Pradip ORCID icon
Hammerstein, Erica ORCID icon
Iyyani, Shabnam ORCID icon
Mangan, Joseph
Perley, Dan ORCID icon
Purkayastha, Sonalika
Bellm, Eric ORCID icon
Bhalerao, Varun ORCID icon
Bolin, Bryce ORCID icon
Bulla, Mattia ORCID icon
Cannella, Christopher ORCID icon
Chandra, Poonam ORCID icon
Duev, Dmitry A. ORCID icon
Frederiks, Dmitry ORCID icon
Gal-Yam, Avishay ORCID icon
Graham, Matthew ORCID icon
Ho, Anna Y. Q. ORCID icon
Hurley, Kevin ORCID icon
Karambelkar, Viraj ORCID icon
Kool, Erik C. ORCID icon
Kulkarni, S. R. ORCID icon
Mahabal, Ashish ORCID icon
Masci, Frank ORCID icon
McBreen, Sheila ORCID icon
Pandey, Shashi B.
Reusch, Simeon ORCID icon
Ridnaia, Anna ORCID icon
Rosnet, Philippe ORCID icon
Rusholme, Benjamin ORCID icon
Sagués Carracedo, Ana ORCID icon
Smith, Roger ORCID icon
Soumagnac, Maayane ORCID icon
Stein, Robert ORCID icon
Troja, Eleonora ORCID icon
Tsvetkova, Anastasia ORCID icon
Walters, Richard ORCID icon
Valeev, Azamat F. ORCID icon

Abstract

Gamma-ray bursts (GRBs) are among the brightest and most energetic events in the Universe. The duration and hardness distribution of GRBs has two clusters(1), now understood to reflect (at least) two different progenitors(2). Short-hard GRBs (SGRBs; T₉₀ < 2 s) arise from compact binary mergers, and long-soft GRBs (LGRBs; T₉₀ > 2 s) have been attributed to the collapse of peculiar massive stars (collapsars)(3). The discovery of SN 1998bw/GRB 980425 (ref. 4) marked the first association of an LGRB with a collapsar, and AT 2017gfo (ref. 5)/GRB 170817A/GW170817 (ref. 6) marked the first association of an SGRB with a binary neutron star merger, which also produced a gravitational wave. Here, we present the discovery of ZTF20abwysqy (AT2020scz), a fast-fading optical transient in the Fermi satellite and the Interplanetary Network localization regions of GRB 200826A; X-ray and radio emission further confirm that this is the afterglow. Follow-up imaging (at rest-frame 16.5 days) reveals excess emission above the afterglow that cannot be explained as an underlying kilonova, but which is consistent with being the supernova. Although the GRB duration is short (rest-frame T₉₀ of 0.65 s), our panchromatic follow-up data confirm a collapsar origin. GRB 200826A is the shortest LGRB found with an associated collapsar; it appears to sit on the brink between a successful and a failed collapsar. Our discovery is consistent with the hypothesis that most collapsars fail to produce ultra-relativistic jets.

Additional Information

© 2021 Nature Publishing Group. Received 30 March 2021; Accepted 14 June 2021; Published 26 July 2021. This work was supported by the GROWTH (Global Relay of Observatories Watching Transients Happen) project funded by the National Science Foundation under PIRE grant No. 1545949. GROWTH is a collaborative project among California Institute of Technology (USA), University of Maryland College Park (USA), University of Wisconsin Milwaukee (USA), Texas Tech University (USA), San Diego State University (USA), University of Washington (USA), Los Alamos National Laboratory (USA), Tokyo Institute of Technology (Japan), National Central University (Taiwan), Indian Institute of Astrophysics (India), Indian Institute of Technology Bombay (India), Weizmann Institute of Science (Israel), The Oskar Klein Centre at Stockholm University (Sweden), Humboldt University (Germany), Liverpool John Moores University (UK) and University of Sydney (Australia). Based on observations obtained with the Samuel Oschin Telescope 48-inch and the 60-inch Telescope at the Palomar Observatory as part of the Zwicky Transient Facility project. ZTF is supported by the National Science Foundation under grant No. AST-1440341 and a collaboration including Caltech, IPAC, the Weizmann Institute for Science, the Oskar Klein Center at Stockholm University, the University of Maryland, the University of Washington (UW), Deutsches Elektronen-Synchrotron and Humboldt University, Los Alamos National Laboratories, the TANGO Consortium of Taiwan, the University of Wisconsin at Milwaukee and Lawrence Berkeley National Laboratories. Operations are conducted by Caltech Optical Observatories, IPAC and UW. The work is partly based on the observations made with the Gran Telescopio Canarias (GTC), installed in the Spanish Observatorio del Roque de los Muchachos of the Instituto de Astrofisica de Canarias, in the island of La Palma. The material is based on work supported by NASA under award No. 80GSFC17M0002. A.J.C.T. acknowledges all co-Is of the GTC proposal and the financial support from the State Agency for Research of the Spanish MCIU through the 'Center of Excellence Severo Ochoa' award to the Instituto de Astrofísica de Andalucía (SEV-2017-0709). The ZTF forced-photometry service was funded under the Heising-Simons Foundation grant No. 12540303 (PI: Graham). S.M. and J.M. acknowledge support from Science Foundation Ireland under grant No. 17/CDA/4723. R.D. acknowledges support from the Irish Research Council (IRC) under grant GOIPG/2019/2033. Analysis was performed on the YORP cluster administered by the Center for Theory and Computation, part of the Department of Astronomy at the University of Maryland. Resources supporting this work were provided by the NASA High-End Computing (HEC) Program through the NASA Advanced Supercomputing (NAS) Division at Ames Research Center. These results also made use of Lowell Observatory's Lowell Discovery Telescope (LDT), formerly the Discovery Channel Telescope. Lowell operates the LDT in partnership with Boston University, Northern Arizona University, the University of Maryland and the University of Toledo. Partial support of the LDT was provided by Discovery Communications. LMI was built by Lowell Observatory using funds from the National Science Foundation (AST-1005313). M.W.C. acknowledges support from the National Science Foundation with grant No. PHY-2010970. S.A. gratefully acknowledges support from the GROWTH PIRE grant (1545949). Part of this research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration. E.C.K. acknowledges support from the G.R.E.A.T research environment and the Wenner-Gren Foundations. P.T.H.P. is supported by the research program of the Netherlands Organization for Scientific Research (NWO). H.K. is an LSSTC Data Science Fellow and thanks the LSSTC Data Science Fellowship Program, which is funded by LSSTC, NSF Cybertraining grant No. 1829740, the Brinson Foundation and the Moore Foundation; his participation in the program has benefited this work. S.M. and J.M. acknowledge support from Science Foundation Ireland under grant No. 17/CDA/4723. R.D. acknowledges support from the Irish Research Council (IRC) under grant GOIPG/2019/2033. P.C. is a Swarana Jayanti Fellow and acknowledges support from the Department of Science and Technology via award No. DST/SJF/PSA-01/2014-15). We thank the staff of the GMRT who made these observations possible. GMRT is run by the National Centre for Radio Astrophysics of the Tata Institute of Fundamental Research. P.C. is a Swarna Jayanti Fellow and thanks the Department of Science & Technology in India. We thank D. Bhattacharya, A. Vibhute and V. Shenoy for help with the CZTI analysis. V.A.F. acknowledges support from the RFBR 18-29-21030. Data availability: Upon request, the corresponding author will provide data required to reproduce the figures, including light curves and spectra for any objects. The authors note that most of these data are publicly available, either though ZTF, the Gemini archive (GN-DD-104), the Swift catalogue (https://www.swift.ac.uk/xrt_live_cat/) or GCNs . Code availability: Upon request, the corresponding author will provide code (primarily in Python) used to produce the figures. Author Contributions: T.A. and L.P.S. were the primary authors of the manuscript. M.M.K. is the PI of GROWTH and the ZTF EM-GW program, and S.B.C. is PI of the SGRB program. M.W.C., S.A., I.A. and M.A. support development of the GROWTH ToO Marshal and associated program. H.K. and C.F. led the reductions of the Gemini data. E.Burns led analysis of the Fermi gamma-ray data. G.R., V.C., T.D. and P.T.H.P. contributed to the afterglow, KN and SN modelling. R.D. and J.M. were the GBM burst advocates and provided gamma-ray analysis. D.S.S., D.F., K.H., A.R. and A.T. performed IPN and Konus analyses. A.J.C.-T., A.F.V. and S.B.P. provided the GTC spectrum. K.D. performed the WIRC data reduction. P.C. and S.P. provided GMRT data. P.G., S.D. and E.T. provided the LDT data. E.H. performed galaxy and SED fitting. S.I. and V.B. performed the Astrosat analyses. C.C. contributed to the GROWTH Marshal. B.B., A.G.-Y., D.P., A.Y.Q.H., V.K., E.C.K., S.R., A.S.C. and R.Stein contributed to candidate scanning, vetting, and classification. E.Bellm., D.A.D., M.G., S.R.K., F.M., A.M., P.R., B.R., R.Smith., M.S. and R.W. are ZTF builders. All authors contributed to edits to the manuscript. The authors declare no competing interests. Peer review information: Nature Astronomy thanks the anonymous reviewers for their contribution to the peer review of this work.

Errata

Ahumada, T., Singer, L.P., Anand, S. et al. Author Correction: Discovery and confirmation of the shortest gamma-ray burst from a collapsar. Nat Astron (2021). https://doi.org/10.1038/s41550-021-01501-1

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