HD 269810 explained

HD 269810 is a blue giant star in the Large Magellanic Cloud. It is one of the most massive and most luminous stars known, and one of only a handful of stars with the spectral type O2.

Name

The star's name, HD 269810, comes from the Henry Draper Catalogue. The serial number 269810 indicates it was published in the extension of the catalogue and is formally referred to as HDE 269810.

Details

HD 269810 is classified as an O2 III (f) star with a temperature of 52500K. The luminosity class of III indicates a star somewhat evolved and expanded compared to the zero-age main sequence. The spectral peculiarity code (f) indicates strong N emission lines, even stronger NN emission, and weak HeN emission. The star's radius is, but because of its high surface temperature it is two million times brighter than the Sun. The high temperature generates a fast stellar wind of 3750km/s,[1] shedding over a millionth of the mass of the sun each year. In 1995, HD 269810 was estimated to be 190 times the mass of the Sun[2] and was thought to be the heaviest star known, but its mass estimate is now revised down to be around .

Evolution

Stars as massive as HD 269810 with metallicity typical of the Large Magellanic Cloud will maintain near-homogeneous chemical structure due to strong convection and rotational mixing. This produces strong helium and nitrogen surface abundance enhancement even during core hydrogen burning. Their rotation rates will also decrease significantly due to mass loss and envelope inflation, so that gamma-ray bursts are unlikely when this type of star reaches core collapse. They are expected to develop directly into Wolf–Rayet stars, passing through WN, WC, and WO stages before exploding as a type Ic supernova and leaving behind a black hole. The total lifetime would be around 2 million years, showing an O-type spectrum for most of that time before a shorter period with a WR spectrum.[3] [4]

External links

Notes and References

  1. Howk . J.C. . Sembach . K.R. . Savage . B.D. . Massa . D. . Friedman . S.D. . Fullerton . A.W. . April 2002 . The global content, distribution, and kinematics of interstellar O in the Large Magellanic Cloud . . 569 . 1 . 214–232 . 10.1086/339322 . 2002ApJ...569..214H . astro-ph/0111566. 9421429 .
  2. Walborn . N.R. . Long . K.S. . Lennon . D.J. . Kudritzki . R.P. . November 1995 . A reconnaissance of the 900–1200 Å spectra of early O stars in the Magellanic Clouds . . 454 . L27 . 10.1086/309768 . 1995ApJ...454L..27W . 121642113. free .
  3. Evolution and fate of very massive stars . Monthly Notices of the Royal Astronomical Society . Yusof . N. . Hirschi . R. . Meynet . G. . Crowther . P. A. . Ekstrom . S. . Frischknecht . U. . Georgy . C. . Abu Kassim . H. . Schnurr . O. . 5 . 433 . 2 . 1114–1132 . August 2013 . 10.1093/mnras/stt794 . 2013MNRAS.433.1114Y . 1305.2099. 26170005 .
  4. The evolution of rotating very massive stars with LMC composition . Astronomy & Astrophysics . Köhler . K. . Langer . N. . De Koter . A. . De Mink . S. E.. Selma de Mink . Crowther . P. A. . Evans . C. J. . Gräfener . G. . Sana . H. . Sanyal . D. . Schneider . F. R. N. . Vink . J. S. . 5 . 573 . A71 . January 2015 . 10.1051/0004-6361/201424356 . 2015A&A...573A..71K . 1501.03794. 28962151 .