SN 2006gy: Discovery of the most luminous supernova ever recorded, powered by the death of an extremely massive star like η carinae

Nathan Smith, W. Li, Ryan J. Foley, J. Craig Wheeler, David Pooley, Ryan Chornock, Alexei V. Filippenko, Jeffrey M. Silverman, Robert Quimby, Joshua S. Bloom, Charles Hansen

Research output: Contribution to journalArticlepeer-review

452 Scopus citations


We report the discovery and early observations of the peculiar Type IIn supernova (SN) 2006gy in NGC 1260. With a peak visual magnitude of about -22, it is the most luminous supernova ever recorded. Its very slow rise to maximum took ∼70 days, and it stayed brighter than -21 mag for about 100 days. It is not yet clear what powers the enormous luminosity and the total radiated energy of ∼1051 erg, but we argue that any known mechanism - thermal emission, circumstellar interaction, or 56Ni decay - requires a very massive progenitor star. The circumstellar interaction hypothesis would require truly exceptional conditions around the star, which, in the decades before its death, must have experienced a luminous blue variable (LBV) eruption like the 19th century eruption of η Carinae. However, this scenario fails to explain the weak and unabsorbed soft X-rays detected by Chandra. Radioactive decay of 56Ni may be a less objectionable hypothesis, but it would imply a large Ni mass of ∼22 M, requiring SN 2006gy to have been a pair-instability supernova where the star's core was obliterated. While this is still uncertain, SN 2006gy is the first supernova for which we have good reason to suspect a pair-instability explosion. Based on a number of lines of evidence, we eliminate the hypothesis that SN 2006gy was a "Type IIa" event, that is, a white dwarf exploding inside a hydrogen envelope. Instead, we propose that the progenitor was a very massive evolved object like η Carinae that, contrary to expectations, failed to shed its hydrogen envelope. SN 2006gy implies that some of the most massive stars can explode prematurely during the LBV phase, never becoming Wolf-Rayet stars. SN 2006gy also suggests that they can create brilliant supemovae instead of experiencing ignominious deaths through direct collapse to a black hole. If such a fate is common among the most massive stars, then observable supernovae from Population III stars in the early universe will be more numerous than previously believed.

Original languageEnglish (US)
Pages (from-to)1116-1128
Number of pages13
JournalAstrophysical Journal
Issue number2 I
StatePublished - 2007


  • Circumstellar matter
  • Stars: evolution
  • Supernovae: individual (SN 2006gy)

ASJC Scopus subject areas

  • Astronomy and Astrophysics
  • Space and Planetary Science


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