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Long γ-ray bursts and core-collapse supernovae have different environments

Author

Listed:
  • A. S. Fruchter

    (Space Telescope Science Institute)

  • A. J. Levan

    (Space Telescope Science Institute
    University of Leicester
    Centre for Astrophysics Research, University of Hertfordshire)

  • L. Strolger

    (Space Telescope Science Institute
    Physics & Astronomy, TCCW 246, Western Kentucky University
    Astronomy, TCCW 246, Western Kentucky University)

  • P. M. Vreeswijk

    (European Southern Observatory)

  • S. E. Thorsett

    (University of California)

  • D. Bersier

    (Space Telescope Science Institute
    Liverpool John Moores University)

  • I. Burud

    (Space Telescope Science Institute
    Norwegian Meteorological Institute)

  • J. M. Castro Cerón

    (Space Telescope Science Institute
    Dark Cosmology Centre, Niels Bohr Institute, University of Copenhagen)

  • A. J. Castro-Tirado

    (Instituto de Astrofísica de Andalucía (CSIC))

  • C. Conselice

    (California Institute of Technology
    School of Physics and Astronomy, University of Nottingham)

  • T. Dahlen

    (Stockholm University)

  • H. C. Ferguson

    (Space Telescope Science Institute)

  • J. P. U. Fynbo

    (Dark Cosmology Centre, Niels Bohr Institute, University of Copenhagen)

  • P. M. Garnavich

    (University of Notre Dame)

  • R. A. Gibbons

    (Space Telescope Science Institute
    Vanderbilt University)

  • J. Gorosabel

    (Space Telescope Science Institute
    Instituto de Astrofísica de Andalucía (CSIC))

  • T. R. Gull

    (Code 667, Extraterrestial Planets and Stellar Astrophysics, Exploration of the Universe Division)

  • J. Hjorth

    (Dark Cosmology Centre, Niels Bohr Institute, University of Copenhagen)

  • S. T. Holland

    (Code 660.1, Goddard Space Flight Center)

  • C. Kouveliotou

    (NASA/Marshall Space Flight Center, VP-62, National Space Science & Technology Center
    Technology Center)

  • Z. Levay

    (Space Telescope Science Institute)

  • M. Livio

    (Space Telescope Science Institute)

  • M. R. Metzger

    (Renaissance Technologies Corporation)

  • P. E. Nugent

    (Lawrence Berkeley National Laboratory, MS 50F-1650)

  • L. Petro

    (Space Telescope Science Institute)

  • E. Pian

    (INAF, Osservatorio Astronomico di Trieste)

  • J. E. Rhoads

    (Space Telescope Science Institute)

  • A. G. Riess

    (Space Telescope Science Institute)

  • K. C. Sahu

    (Space Telescope Science Institute)

  • A. Smette

    (European Southern Observatory)

  • N. R. Tanvir

    (Centre for Astrophysics Research, University of Hertfordshire)

  • R. A. M. J. Wijers

    (Astronomical Institute ‘Anton Pannekoek’, University of Amsterdam)

  • S. E. Woosley

    (University of California)

Abstract

When massive stars exhaust their fuel, they collapse and often produce the extraordinarily bright explosions known as core-collapse supernovae. On occasion, this stellar collapse also powers an even more brilliant relativistic explosion known as a long-duration γ-ray burst. One would then expect that these long γ-ray bursts and core-collapse supernovae should be found in similar galactic environments. Here we show that this expectation is wrong. We find that the γ-ray bursts are far more concentrated in the very brightest regions of their host galaxies than are the core-collapse supernovae. Furthermore, the host galaxies of the long γ-ray bursts are significantly fainter and more irregular than the hosts of the core-collapse supernovae. Together these results suggest that long-duration γ-ray bursts are associated with the most extremely massive stars and may be restricted to galaxies of limited chemical evolution. Our results directly imply that long γ-ray bursts are relatively rare in galaxies such as our own Milky Way.

Suggested Citation

  • A. S. Fruchter & A. J. Levan & L. Strolger & P. M. Vreeswijk & S. E. Thorsett & D. Bersier & I. Burud & J. M. Castro Cerón & A. J. Castro-Tirado & C. Conselice & T. Dahlen & H. C. Ferguson & J. P. U. , 2006. "Long γ-ray bursts and core-collapse supernovae have different environments," Nature, Nature, vol. 441(7092), pages 463-468, May.
    • Handle: RePEc:nat:nature:v:441:y:2006:i:7092:d:10.1038_nature04787
    DOI: 10.1038/nature04787
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