Carbon-enhanced metal-poor stars in the inner and outer halo components of the Milky Way
Date
2012
Authors
Carollo, Daniela
Beers, Timothy C
Bovy, Jo
Sivarani, Thirupathi
Norris, John
Freeman, Kenneth
Aoki, Wako
Sun Lee, Young
Kennedy, Catherine
Journal Title
Journal ISSN
Volume Title
Publisher
IOP Publishing
Abstract
Carbon-enhanced metal-poor (CEMP) stars in the halo components of the Milky Way are explored, based on accurate determinations of the carbon-to-iron ([C/Fe]) abundance ratios and kinematic quantities for over 30,000 calibration stars from the Sloan Digital Sky Survey. Using our present criterion that low-metallicity stars exhibiting [C/Fe] ratios ("carbonicity") in excess of [C/Fe] =+0.7 are considered CEMP stars, the global frequency of CEMP stars in the halo system for [Fe/H] <-1.5 is 8%, for [Fe/H] <-2.0 it is 12%, and for [Fe/H] <-2.5 it is 20%. We also confirm a significant increase in the level of carbon enrichment with declining metallicity, growing from 〈[C/Fe]〉 ∼ +1.0 at [Fe/H] =-1.5 to 〈[C/Fe]〉 ∼ +1.7 at [Fe/H] =-2.7. The nature of the carbonicity distribution function (CarDF) changes dramatically with increasing distance above the Galactic plane, |Z|. For |Z|<5kpc, relatively few CEMP stars are identified. For distances |Z| >5kpc, the CarDF exhibits a strong tail toward high values, up to [C/Fe] > +3.0. We also find a clear increase in the CEMP frequency with |Z|. For stars with -2.0 < [Fe/H] <-1.5, the frequency grows from 5% at |Z| ∼ 2kpc to 10% at |Z| ∼ 10kpc. For stars with [Fe/H] <-2.0, the frequency grows from 8% at |Z| 2kpc to 25% at |Z| 10kpc. For stars with -2.0 < [Fe/H] <-1.5, the mean carbonicity is 〈[C/Fe]〉 ∼ +1.0 for 0kpc < |Z| < 10kpc, with little dependence on |Z|; for [Fe/H] <-2.0, 〈[C/Fe]〉 ∼ +1.5, again roughly independent of |Z|. Based on a statistical separation of the halo components in velocity space, we find evidence for a significant contrast in the frequency of CEMP stars between the inner- and outer-halo components - the outer halo possesses roughly twice the fraction of CEMP stars as the inner halo. The carbonicity distribution also differs between the inner-halo and outer-halo components - the inner halo has a greater portion of stars with modest carbon enhancement ([C/Fe] ∼ +0.5]); the outer halo has a greater portion of stars with large enhancements ([C/Fe] ∼ +2.0), although considerable overlap still exists. We interpret these results as due to the possible presence of additional astrophysical sources of carbon production associated with outer-halo stars, beyond the asymptotic giant-branch source that may dominate for inner-halo stars, with implications for the progenitors of these populations.
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Keywords: Galaxy: evolution; Galaxy: formation; Galaxy: halo; Galaxy: structure; methods: data analysis; stars: abundances; surveys
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Astrophysical Journal, The
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Journal article
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Open Access
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