* Astronomy

Title: The Pulsation Mode of the Cepheid Polaris
Authors: David G. Turner, V. V. Kovtyukh, Igor Usenko, N. Gorlova

A previously-derived photometric parallax of 10.10±0.20 mas, d=99±2 pc, is confirmed for Polaris by a spectroscopic parallax derived using line ratios in high dispersion spectra for the Cepheid. The resulting estimates for the mean luminosity of <Mv>=-3.07±0.01 s.e., average effective temperature of <Teff>=6025±1 K s.e., and intrinsic colour of (<B>-<V>)o=0.56±0.01 s.e., which match values obtained previously from the photometric parallax for a space reddening of E(B-V)=0.02±0.01, are consistent with fundamental mode pulsation for Polaris and a first crossing of the instability strip, as also argued by its rapid rate of period increase. The systematically smaller Hipparcos parallax for Polaris appears discrepant by comparison.

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Title: The period change of the Cepheid Polaris suggests enhanced mass loss
Authors: Hilding R. Neilson, Scott G. Engle, Ed Guinan, Norbert Langer, Richard P. Wasatonic, David B. Williams
(Version v2)

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} ~ 10^{-6} solar masses yr^{-1} based on the difference between modelled 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.

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