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: http://star.arm.ac.uk/~csj/research/rcb_review/node18.html
Дата изменения: Fri Jan 25 15:33:06 2002 Дата индексирования: Tue Oct 2 09:47:14 2012 Кодировка: Поисковые слова: stars |
True `carbon stars' are very cool supergiants with carbon-rich spectra. They are not thought to be particularly hydrogen-deficient, but are low-mass stars which have almost completed their nuclear burning stages. They will soon contract to become a white dwarf, probably illuminating a planetary nebula first. They may provide an important clue to understanding the RCB phenomenon.
Weak RCB-like fading events have recently been discovered in carbon
stars ([Whitelock 1997]), suggesting that the process of carbon
condensation is not confined to classical RCB stars. These very large
stars also show pulsation-like behaviour with chaotic periods. Recent
theoretical work and new observations ([Löbel et al. 2000]) show that
although these pulsations may be `radial', they may not be
spherical. Because of the enormous size of these stars, the pulsations
may not even be coherent over the whole stellar surface. Thus, as the
surface is pushed outwards more over one part of the star than
another, that part becomes cooler and less dense. Shocks are more
likely to develop and trigger dust condensation over small areas of
the photosphere than over the whole surface. In carbon stars, these
events may be very localized, obscuring only a fraction of the stellar
surface. RCB stars, on the other hand, are not so large as the carbon
stars (
compared with
).
As a `puff' is ejected from the star and expands outwards, it is more likely to
obscure the whole star while it is still opaque than it would if it
were a carbon star.
Detailed numerical modelling of RCB pulsations will be needed to determine whether their pulsations could be aspherical. It is conceivable that careful polarimetric observations over several pulsation cycles might also detect such asymmetries.