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Stellar population models and individual element abundances. II. Stellar spectra and integrated light models

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Authors

Lee, Hyun-chul
Worthey, G
Dotter, Aaron
Chaboyer, Brian
Jevremovic, Darko
Baron, E
Briley, Michael M
Ferguson, Jason W
Coelho, Paula
Trager, Scott C

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Institute of Physics Publishing Ltd.

Abstract

The first paper in this series explored the effects of altering the chemical mixture of the stellar population on an element-by-element basis on stellar evolutionary tracks and isochrones to the end of the red giant branch. This paper extends the discussion by incorporating the fully consistent synthetic stellar spectra with those isochrone models in predicting integrated colors, Lick indices, and synthetic spectra. Older populations display element ratio effects in their spectra at higher amplitude than younger populations. In addition, spectral effects in the photospheres of stars tend to dominate over effects from isochrone temperatures and lifetimes, but, further, the isochrone-based effects that are present tend to fall along the age-metallicity degeneracy vector, while the direct stellar spectral effects usually show considerable orthogonality.

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Astrophysical Journal Letters

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Restricted until

2037-12-31