Hilding R. Neilson, Scott G. Engle, Ed Guinan, Norbert Langer, Richard P. Wasatonic, David B. Williams
Polaris is one of the most observed stars in the night sky, with recorded
observations spanning more than 200 years. From these observations, one can
study the real-time evolution of Polaris via the secular rate of change of the
pulsation period. However, the measurements of the rate of period change do not
agree with predictions from state-of-the-art stellar evolution models. We show
that this may imply that Polaris is currently losing mass at a rate of $\dot{M}
\approx 10^{-6} M_\odot$ yr$^{-1}$ based on the difference between modeled and
observed rates of period change, consistent with pulsation-enhanced Cepheid
mass loss. A relation between the rate of period change and mass loss has
important implications for understanding stellar evolution and pulsation, and
provides insight into the current Cepheid mass discrepancy.
View original:
http://arxiv.org/abs/1201.0761
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