Yellow supergiant

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Delta Canis Majoris, a bright yellow supergiant (F8Ia).

A yellow supergiant (YSG) is a supergiant star of spectral type F or G.[1] These stars have initial masses between about 10 and 40 solar masses, although some yellow supergiants will have lost over half of that. Lower mass stars have lower luminosities and are seen as yellow giants. Higher mass stars do not expand beyond blue supergiants.

Most yellow supergiants are cooling and expanding rapidly towards red supergiants after leaving the main sequence, spending only a few thousand years in that phase, and so are much less common than red supergiants.[2] Yellow supergiants are burning hydrogen in a shell after exhausting the hydrogen in their cores. Core helium ignition occurs smoothly at some point during the development of a red supergiant, but models vary on whether this occurs at the yellow supergiant stage or after the star has become a red supergiant.[3][4]

Yellow supergiants are in a region of the HR diagram known as the instability strip because their temperatures and luminosities cause them to be dynamically unstable. Most stars observed in the instability strip appear as variables, subgiants as RR Lyrae variables, giants as W Virginis variables (type II Cepheids), and brighter giants and supergiants as Classical Cepheids. In addition, there are much rarer yellow supergiant variables such as RV Tauri variables, thought to be post-AGB stars, and R Coronae Borealis, highly unusual carbon-rich stars with almost no hydrogen. Above the instability strip (ie. more luminous) are found the yellow hypergiants, also unstable but with irregular pulsations and high mass loss. Yellow hypergiants are mostly stars that have already spent time as red supergiants and are evolving bluewards, although at least one example is known to be evolving for the first time into a red supergiant.

It is not expected that yellow supergiants should explode as a supernova before reaching the red supergiant stage, although it is unclear if post-red supergiant yellow hypergiants might collapse and form a supernova. However, a handful of supernovae have been associated with apparent yellow supergiant progenitors that are not luminous enough to be post-red supergiants. If these are confirmed then an explanation must be found for how a star of moderate mass still with a helium core would cause a core-collapse supernova. The obvious candidate in such cases is always some form of binary interaction.[5]

References[edit]

Light curve of Delta Cephei, a yellow supergiant classical Cepheid variable.
  1. ^ p. 366, The evolution of massive stars with mass loss, Cesare Chiosi and Andre Maeder, Annual review of astronomy and astrophysics 24 (1986), pp. 329–375. Bibcode1986ARA&A..24..329C. doi:10.1146/annurev.aa.24.090186.001553.
  2. ^ Neugent; Philip Massey; Brian Skiff; Georges Meynet (2012). "Yellow and Red Supergiants in the Large Magellanic Cloud". arXiv:1202.4225v1 [astro-ph.SR].
  3. ^ Bibcode2011BSRSL..80..266M
  4. ^ Georges Meynet; Sylvia Ekström; André Maeder; Patrick Eggenberger; Hideyuki Saio; Vincent Chomienne; Lionel Haemmerlé (2013). "Models of rotating massive stars: Impacts of various prescriptions". arXiv:1301.2487v1 [astro-ph.SR].
  5. ^ Bersten, M. C.; Benvenuto, O. G.; Nomoto, K. I.; Ergon, M.; Folatelli, G. N.; Sollerman, J.; Benetti, S.; Botticella, M. T.; Fraser, M.; Kotak, R.; Maeda, K.; Ochner, P.; Tomasella, L. (2012). "The Type IIb Supernova 2011dh from a Supergiant Progenitor". The Astrophysical Journal 757: 31. arXiv:1207.5975. Bibcode:2012ApJ...757...31B. doi:10.1088/0004-637X/757/1/31.  edit

See also[edit]