Bibcode
Lobel, A.; Dupree, A. K.; Stefanik, R. P.; Torres, G.; Israelian, G.; Morrison, N.; de Jager, C.; Nieuwenhuijzen, H.; Ilyin, I.; Musaev, F.
Bibliographical reference
Modelling of Stellar Atmospheres, Poster Contributions. Proceedings of the 210th Symposium of the International Astronomical Union held at Uppsala University, Uppsala, Sweden, 17-21 June, 2002. Edited by N. Piskunov, W.W. Weiss, and D.F. Gray. Published on behalf of the IAU by the Astronomical Society of the Pacific, 2003., p.F10
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2003
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Description
Between 2000 June and September an exceptional variability phase
occurred in the peculiar F-type hypergiant Rho Cas, when the
V-brightness dimmed by at least a full magnitude. The star recovered
from this deep minimum by 2001 April. It is the third outburst of Rho
Cas on record in the last century. We observe TiO absorption bands in
high-resolution optical and near-IR spectra obtained with the Utrecht
Echelle Spectrograph during the summer of 2000. TiO formation in the
outer atmosphere occurred before the deep brightness minimum.Atmospheric
models reveal that the effective temperature decreases by at least 3000
K, and the TiO shell is driven supersonically with Mdot =~5.4 10^-2
Msun/yr. Strong episodic mass loss and TiO have also been observed
during the outbursts of 1945-47 and 1985-86. An analysis of the
exceptional outburst spectra of 2000-01 is provided, by comparing with
high-resolution optical spectra of the early M-type supergiants Mu Cep
(Ia) and Betelgeuse (Iab). During the outburst, central emission appears
above the local continuum level in the split Na D lines. The outburst
spectra indicate the formation of a low- temperature, optically thick
circumstellar gas shell of 3 10^-2 Msun during ~200 d, caused by
dynamic instability of the upper atmosphere of this pulsating massive
supergiant near the Eddington luminosity limit. We present an equation
that correctly predicts the outburst time-scale, whereby the shell
ejection is driven by the release of hydrogen recombination energy. We
observe that the mass-loss rate during the outburst is of the same order
of magnitude as has been proposed for the outbursts of Eta Carinae. The
research results in this paper are described in further detail in Lobel
et al. (2003). A spectral movie sequence of the outburst is available at
http://cfa-www.harvard.edu/~alobel/