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Origins of the thick disk as traced by the alpha elements of metal-poor giant stars selected from RAVE

Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.14/133009

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Title: Origins of the thick disk as traced by the alpha elements of metal-poor giant stars selected from RAVE
Related: Astrophysical journal. Letters, Vol. 721, No. 2, (2010), p.L92-L96
DOI: 10.1088/2041-8205/721/2/L92
Publisher: Institute of Physics
Date: 2010
FoR/RFCD Code(s): 020100 Astronomical and Space Sciences
Author/Creator: Ruchti, G. R
Author/Creator: Fulbright, J. P
Author/Creator: Grebel, E. K
Author/Creator: Helmi, A
Author/Creator: Munari, U
Author/Creator: Navarro, J. F
Author/Creator: Parker, Q. A
Author/Creator: Reid, W
Author/Creator: Seabroke, G. M
Author/Creator: Siebert, A
Author/Creator: Siviero, A
Author/Creator: Steinmetz, M
Author/Creator: Wyse, R. F. G
Author/Creator: Watson, F. G
Author/Creator: Williams, M
Author/Creator: Zwitter, T
Author/Creator: Gilmore, G. F
Author/Creator: Bienaymé, O
Author/Creator: Binney, J
Author/Creator: Bland-Hawthorn, J
Author/Creator: Campbell, R
Author/Creator: Freeman, K. C
Author/Creator: Gibson, B. K
Description: Theories of thick-disk formation can be differentiated by measurements of stellar elemental abundances. We have undertaken a study of metal-poor stars selected from the RAVE spectroscopic survey of bright stars to establish whether or not there is a significant population of metal-poor thick-disk stars ([Fe/H] ≲ –1.0) and to measure their elemental abundances. In this Letter, we present abundances of four α-elements (Mg, Si, Ca, and Ti) and iron for a subsample of 212 red giant branch and 31 red clump/horizontal branch stars from this study. We find that the [α/Fe] ratios are enhanced, implying that enrichment proceeded by purely core-collapse supernovae. This requires that star formation in each star-forming region had a short duration. The relative lack of scatter in the [α/Fe] ratios implies good mixing in the interstellar medium prior to star formation. In addition, the ratios resemble that of the halo, indicating that the halo and thick disk share a similar massive star initial mass function. We conclude that the α-enhancement of the metal-poor thick disk implies that direct accretion of stars from dwarf galaxies similar to surviving dwarf galaxies today did not play a major role in the formation of the thick disk.
Description: 5 page(s)
Subject Keyword: 020100 Astronomical and Space Sciences
Subject Keyword: galaxy: abundances
Subject Keyword: galaxy: disk
Subject Keyword: stars: abundances
Subject Keyword: stars: late-type
Resource Type: journal article
Organisation: Macquarie University. Dept. of Physics and Astronomy

Identifier: http://hdl.handle.net/1959.14/133009
Identifier: ISSN:2041-8205
Identifier: mq-rm-2010001994
Language: eng
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