α-MC: Self-consistent α-enhanced stellar population models covering a wide range of age, metallicity, and wavelength

Abstract

We present new stellar population models, α-MC, self-consistently taking into account non-solar [α/Fe] abundances for both isochrones and stellar spectra. The α-MC models are based on α-enhanced MIST isochrones and C3K spectral libraries, which are publicly available in FSPS. Our new models cover a wide range of ages ( (age/yr) = 5.0 - 10.3), metallicities ( [Fe/H]=[-2.5,+0.5] in steps of 0.25, [α/Fe]=-0.2,+0.0,+0.2,+0.4,+0.6), and wavelengths (0.1-2.5\, μ m). We investigate the separate and combined effects of α-enhanced isochrones and stellar spectral libraries on simple stellar populations (SSPs), including their broadband colors, spectral indices, and full spectra. We find that the primary effect of α-enhancement in isochrones is to lower the overall continuum levels and redden the continuum shapes, while α-enhancement in stellar spectra mainly affects individual spectral lines. At constant [Fe/H], α-enhancement has significant impacts on the broadband colors by 0.1-0.4\,mag across all ages ( 0.01 - 10\,Gyr). The effects of α-enhancement on colors at fixed [Z/H] are smaller, by 0.1-0.2\,mag. The spectral indices involving α-elements, Ca4227 and Mg b, increase with [α/Fe] (both at fixed [Fe/H] and fixed [Z/H]) due to enhanced α-abundances. At constant [Fe/H], α-enhancement weakens most Fe-sensitive and Hydrogen Balmer lines. Our new self-consistent α-enhanced models will be essential in deriving accurate physical properties of high-redshift galaxies, where α-enhancement is expected to be common.

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