Aims.We spectroscopically characterize the Galactic Bulge to infer its star formation timescale, compared to the other Galactic components, through the chemical signature on its individual stars. Methods: .We derived iron and oxygen abundances for 50 K giants in four fields towards the Galactic bulge. High resolution (R=45 000) spectra for the target stars were collected with FLAMES-UVES at the VLT. Results: .Oxygen, as measured from the forbidden line at 6300 Å, shows a well-defined trend with [Fe/H], with [O/Fe] higher in bulge stars than in thick disk ones, which were known to be more oxygen enhanced than thin disk stars. Conclusions: .These results support a scenario in which the bulge formed before and more rapidly than the disk, and therefore the MW bulge can be regarded as a prototypical old spheroid, with a formation history similar to that of early-type (elliptical) galaxies.

Oxygen abundances in the Galactic bulge: evidence for fast chemical enrichment

ORTOLANI, SERGIO
2006

Abstract

Aims.We spectroscopically characterize the Galactic Bulge to infer its star formation timescale, compared to the other Galactic components, through the chemical signature on its individual stars. Methods: .We derived iron and oxygen abundances for 50 K giants in four fields towards the Galactic bulge. High resolution (R=45 000) spectra for the target stars were collected with FLAMES-UVES at the VLT. Results: .Oxygen, as measured from the forbidden line at 6300 Å, shows a well-defined trend with [Fe/H], with [O/Fe] higher in bulge stars than in thick disk ones, which were known to be more oxygen enhanced than thin disk stars. Conclusions: .These results support a scenario in which the bulge formed before and more rapidly than the disk, and therefore the MW bulge can be regarded as a prototypical old spheroid, with a formation history similar to that of early-type (elliptical) galaxies.
2006
Electronic
Inglese
ASTRONOMY & ASTROPHYSICS
457
L1
L4
Internazionale
Sì, ma tipo non specificato
WOS:000240495300001
2-s2.0-33749068444
W2164159860
The Space Science category includes resources dealing with all areas of astronomy and astrophysics, which are concerned with celestial bodies and the observation and interpretation of radiation received in the vicinity of the Earth from the component parts of the universe. These resources deal with the physical properties of celestial bodies, such as luminosity, size, mass, density, temperature, chemical composition and their origin and evolution. Planetary science may also be included in this CC category.
open
Zoccali, M; Lecureur, A; Barbuy, B; Hill, V; Renzini, A; Minniti, D; Momany, Y; Gomez, A; Ortolani, Sergio
01 CONTRIBUTO IN RIVISTA::01.01 - Articolo in rivista
info:eu-repo/semantics/article
9
262
01.01 - Articolo in rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/1565003
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