Dengkai Jiang, Zhanwen Han, Hongwei Ge, Liheng Yang, Lifang Li
The stability of mass transfer is important in the formation of contact
binaries from detached binaries when the primaries of the initially detached
binaries fill their Roche lobes. Using Eggleton's stellar evolution code, we
investigate the formation and the short-period limit of contact binaries by
considering the effect of the instability of mass transfer. It is found that
with decreasing initial primary mass from 0.89M$_{\rm \odot}$ to 0.63M$_{\rm
\odot}$, the range of the initial mass ratio decreases for detached binaries
that experience stable mass transfer and evolve into contact. If the initial
primary mass is less than 0.63M$_{\rm \odot}$, detached binaries would
experience dynamically unstable mass transfer when the primaries of detached
binaries fill their Roche lobes. These systems would evolve into a common
envelope situation and probably then to a complete merger of two components on
a quite short timescale. This results in a low mass limit at about 0.63M$_{\rm
\odot}$ for the primary mass of contact binaries, which might be a main reason
why the period distribution of contact binaries has a short limit of about 0.22
days. By comparing the theoretical period distribution of contact binaries with
the observational data, it is found that the observed contact binaries are
above the low mass limit for the primary mass of contact binaries and no
observed contact binaries are below this limit. This suggests that the
short-period limit of contact binaries can be explained by the instability of
the mass transfer that occurs when the primaries of the initially detached
binaries fill their Roche lobes.
View original:
http://arxiv.org/abs/1112.0466
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