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An unusual supernova in the error box of the γ-ray burst of 25 April 1998

Author

Listed:
  • T. J. Galama

    (Astronomical Institute “Anton Pannekoek”, University of Amsterdam & Center for High Energy Astrophysics)

  • P. M. Vreeswijk

    (Astronomical Institute “Anton Pannekoek”, University of Amsterdam & Center for High Energy Astrophysics)

  • J. van Paradijs

    (Astronomical Institute “Anton Pannekoek”, University of Amsterdam & Center for High Energy Astrophysics
    University of Alabama in Huntsville)

  • C. Kouveliotou

    (Universities Space Research Association
    NASA Marshall Space Flight Center, ES-84)

  • T. Augusteijn

    (ESO)

  • H. Böhnhardt

    (ESO)

  • J. P. Brewer

    (ESO)

  • V. Doublier

    (ESO)

  • J.-F. Gonzalez

    (ESO)

  • B. Leibundgut

    (ESO)

  • C. Lidman

    (ESO)

  • O. R. Hainaut

    (ESO)

  • F. Patat

    (ESO)

  • J. Heise

    (SRON Laboratory for Space Research)

  • J. in't Zand

    (SRON Laboratory for Space Research)

  • K. Hurley

    (Space Sciences Laboratory)

  • P. J. Groot

    (Astronomical Institute “Anton Pannekoek”, University of Amsterdam & Center for High Energy Astrophysics)

  • R. G. Strom

    (Astronomical Institute “Anton Pannekoek”, University of Amsterdam & Center for High Energy Astrophysics
    Netherlands Foundation for Research in Astronomy)

  • P. A. Mazzali

    (Osservatorio Astronomico di Trieste)

  • K. Iwamoto

    (School of Science, University of Tokyo)

  • K. Nomoto

    (School of Science, University of Tokyo
    Research Center for the Early Universe, School of Science, University of Tokyo)

  • H. Umeda

    (School of Science, University of Tokyo
    Research Center for the Early Universe, School of Science, University of Tokyo)

  • T. Nakamura

    (School of Science, University of Tokyo)

  • T. R. Young

    (School of Science, University of Tokyo)

  • T. Suzuki

    (School of Science, University of Tokyo
    Research Center for the Early Universe, School of Science, University of Tokyo)

  • T. Shigeyama

    (School of Science, University of Tokyo
    Research Center for the Early Universe, School of Science, University of Tokyo)

  • T. Koshut

    (Universities Space Research Association)

  • M. Kippen

    (Universities Space Research Association
    NASA Marshall Space Flight Center, ES-84)

  • C. Robinson

    (Universities Space Research Association
    NASA Marshall Space Flight Center, ES-84)

  • P. de Wildt

    (Astronomical Institute “Anton Pannekoek”, University of Amsterdam & Center for High Energy Astrophysics)

  • R. A. M. J. Wijers

    (Institute of Astronomy
    SUNY)

  • N. Tanvir

    (Institute of Astronomy)

  • J. Greiner

    (Astrophysikalisches Institut)

  • E. Pian

    (Istituto Tecnologie e Studio Radiazioni Extraterrestri, CNR)

  • E. Palazzi

    (Istituto Tecnologie e Studio Radiazioni Extraterrestri, CNR)

  • F. Frontera

    (Istituto Tecnologie e Studio Radiazioni Extraterrestri, CNR)

  • N. Masetti

    (Istituto Tecnologie e Studio Radiazioni Extraterrestri, CNR)

  • L. Nicastro

    (Istituto di Fisica Cosmica e Applicazioni all’Informatica, CNR)

  • M. Feroci

    (Istituto di Astrofisica Spaziale, CNR)

  • E. Costa

    (Istituto di Astrofisica Spaziale, CNR)

  • L. Piro

    (Istituto di Astrofisica Spaziale, CNR)

  • B. A. Peterson

    (Mt Stromlo and Siding Spring Observatories, The Australian National University)

  • C. Tinney

    (Anglo-Australian Observatory)

  • B. Boyle

    (Anglo-Australian Observatory)

  • R. Cannon

    (Anglo-Australian Observatory)

  • R. Stathakis

    (Anglo-Australian Observatory)

  • E. Sadler

    (School of Physics A29, University of Sydney)

  • M. C. Begam

    (Department of Astronomy
    University of Virginia)

  • P. Ianna

    (Department of Astronomy
    University of Virginia)

Abstract

The discovery of afterglows associated with γ-ray bursts at X-ray1, optical2 and radio3 wavelengths and the measurement of the redshifts of some of these events4,5 has established that γ-ray bursts lie at extreme distances, making them the most powerful photon-emitters known in the Universe. Here we report the discovery of transient optical emission in the error box of the γ-ray burst GRB980425, the light curve of which was very different from that of previous optical afterglows associated with γ-ray bursts. The optical transient is located in a spiral arm of the galaxy ESO184-G82, which has a redshift velocity of only 2,550 km s−1 (ref. 6). Its optical spectrum and location indicate that it is a very luminous supernova7, which has been identified as SN1998bw. If this supernova and GRB980425 are indeed associated, the energy radiated in γ-rays is at least four orders of magnitude less than in other γ-ray bursts, although its appearance was otherwise unremarkable: this indicates that very different mechanisms can give rise to γ-ray bursts. But independent of this association, the supernova is itself unusual, exhibiting an unusual light curve at radio wavelengths that requires that the gas emitting the radio photons be expanding relativistically8,9.

Suggested Citation

  • T. J. Galama & P. M. Vreeswijk & J. van Paradijs & C. Kouveliotou & T. Augusteijn & H. Böhnhardt & J. P. Brewer & V. Doublier & J.-F. Gonzalez & B. Leibundgut & C. Lidman & O. R. Hainaut & F. Patat & , 1998. "An unusual supernova in the error box of the γ-ray burst of 25 April 1998," Nature, Nature, vol. 395(6703), pages 670-672, October.
    • Handle: RePEc:nat:nature:v:395:y:1998:i:6703:d:10.1038_27150
    DOI: 10.1038/27150
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