Bump Cepheids in the Magellanic Clouds: Metallicities, the Distances to the LMC and SMC, and the Pulsation-Evolution Mass Discrepancy

Details Bump Cepheids in the Magellanic Clouds: Metallicities, the Distances to the LMC and SMC, and the Pulsation-Evolution Mass Discrepancy Bump Cepheids in the Magellanic Clouds: Metallicities, the Distances to the LMC and SMC, and the Pulsation-Evolution Mass Discrepancy

2006-01-10

arxiv.org/abs/astro-ph/0601225v1

Astrophys.J. 642 (2006) 834-841

Astronomy and Astrophysics

Astrophysics

ApJ accepted

Scientific paper

10.1086/501115

We utilize nonlinear pulsation models to reproduce the observed light and color curves for two samples of bump Cepheid variables, 19 from the Large Magellanic Cloud and 9 from the Small Magellanic Cloud. This analysis determines the fundamental parameters mass, luminosity, effective temperature, metallicity, distance and reddening for the sample of stars. The use of light curve shape alone to determine metallicity is a new modelling technique introduced here. The metallicity, distance and reddening distributions for the two samples are in agreement with those of similar stellar populations in the literature. The distance modulus of the Large Magellanic Cloud is determined to be 18.54$\pm$0.018 and the distance modulus of the Small Magellanic Cloud is determined to be 18.93$\pm$0.024. The mean Cepheid metallicities are $Z = 0.0091\pm0.0007$ and $0.0050\pm0.0005$ for the LMC and SMC, respectively. The masses derived from pulsation analysis are significantly less than those predicted by stellar evolutionary models with no or mild convective core overshoot. We show that this discrepancy can not be accounted for by uncertainties in our input opacities or in mass-loss physics. We interpret the observed mass discrepancy in terms of enhanced internal mixing in the vicinity of the convective core during the main-sequence lifetime and find that the overshoot parameter $\Lambda_{c}$ rises from 0.688$\pm$0.009H_p at the mean LMC metallicity to 0.746$\pm$0.009H_p in the SMC.

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