P. Demarque scite author profile

Convective core overshoot affects stellar evolution rates and the dating of stellar populations. In this paper, we provide a patch to the Y 2 isochrones with an improved treatment of convective core overshoot. The new tracks cover the transition mass range from no convective core to a fully developed convective core. We compare the improved isochrones to CMDs of a few well-observed open star clusters in the Galaxy and the Large Magellanic Cloud. Finally, we discuss future prospects for improving the treatment of core overshoot with the help of asteroseismology.

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Toward Better Age Estimates for Stellar Populations: The Y ² Isochrones for Solar Mixture

Demarque

Kim

et al. 2001

ASTROPHYS J SUPPL S

810

1,087

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We have constructed a new set of isochrones, called the Y 2 Isochrones, that represent an update of the Revised Yale Isochrones (RYI), using improved opacities and equations of state. Helium diffusion and convective core overshoot have also been taken into consideration. This first set of isochrones is for the scaled solar mixture. A subsequent paper will consider the effects of α-element enhancement, believed to be relevant in many stellar systems. Two additionally significant features of these isochrones are that (1) the stellar models start their evolution from the pre-main sequence birthline instead of from the zero-age main sequence, and (2) the color transformation has been performed using both the latest table of Lejeune et al., and

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The Current State of Solar Modeling

Christensen‐Dalsgaard

Däppen

Ajukov³

et al. 1996

Science

1,082

869

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Data from the Global Oscillation Network Group (GONG) project and other helioseismic experiments provide a test for models of stellar interiors and for the thermodynamic and radiative properties, on which the models depend, of matter under the extreme conditions found in the sun. Current models are in agreement with the helioseismic inferences, which suggests, for example, that the disagreement between the predicted and observed fluxes of neutrinos from the sun is not caused by errors in the models. However, the GONG data reveal subtle errors in the models, such as an excess in sound speed just beneath the convection zone. These discrepancies indicate effects that have so far not been correctly accounted for; for example, it is plausible that the sound-speed differences reflect weak mixing in stellar interiors, of potential importance to the overall evolution of stars and ultimately to estimates of the age of the galaxy based on stellar evolution calculations.

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The horizontal-branch stars in globular clusters. 2: The second parameter phenomenon

Lee¹,

Demarque²,

Zinn³

1994

ApJ

418

548

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Evolutionary models of the rotating sun

Pinsonneault¹,

Kawaler²,

Sofia³

et al. 1989

ApJ

551

522

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P. Demarque

Y ² Isochrones with an Improved Core Overshoot Treatment

Toward Better Age Estimates for Stellar Populations: The Y ² Isochrones for Solar Mixture

The Current State of Solar Modeling

The horizontal-branch stars in globular clusters. 2: The second parameter phenomenon

Evolutionary models of the rotating sun

Contact Info

Product

Resources

About

P. Demarque

Y 2 Isochrones with an Improved Core Overshoot Treatment

Toward Better Age Estimates for Stellar Populations: The Y 2 Isochrones for Solar Mixture

The Current State of Solar Modeling

The horizontal-branch stars in globular clusters. 2: The second parameter phenomenon

Evolutionary models of the rotating sun

Contact Info

Product

Resources

About

Y ² Isochrones with an Improved Core Overshoot Treatment

Toward Better Age Estimates for Stellar Populations: The Y ² Isochrones for Solar Mixture