Title of article
Non-spherical core collapse supernovae I. Neutrino-driven convection, Rayleigh-Taylor instabilities, and the formation and propagation of metal clumps
Author/Authors
Kifonidis، K. نويسنده , , Plewa، T. نويسنده , , Janka، H.-Th. نويسنده , , Muller، E. نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
-620
From page
621
To page
0
Abstract
An analysis of new spectroscopic and photoelectric UBV observations, satisfactorily covering the whole orbital period of V436 Per, together with existing data allowed us to improve the knowledge of the basic physical characteristics of the binary and its components. In several aspects, our new results differ from the findings of Paper I of this series: in particular, we found that it is the star eclipsed in the secondary minimum which is slightly more massive and larger than the optical primary. We also conclude that the apsidal advance - if present at all - is much slower than that estimated in a previous study. The orbital period might be increasing by 0.28 s per year but also this finding is very uncertain and needs verification by future observations. It is encouraging to note that two completely independent sets of programs for light-curve solutions lead to identical results. A notable finding is that both binary components rotate with very similar - if not identical - rotational periods of 1.d45 and 1.d40, much shorter than what would correspond to a 10.d9 spin-orbit synchronization period at periastron. Rapid line-profile changes reported earlier could not be confirmed from new, dedicated series of high-resolution and S/N spectra.
Keywords
stars: supernovae: general , Hydrodynamics , Shock waves , instabilities , nuclear reactions/ nucleosynthesis abundances
Journal title
Astronomy and Astrophysics
Serial Year
2003
Journal title
Astronomy and Astrophysics
Record number
78195
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