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A&A 396, 189-201 (2002)
DOI: 10.1051/0004-6361:20021399
Abundances of Cu and Zn in metal-poor stars: Clues for Galaxy evolution
T. V. Mishenina1, V. V. Kovtyukh1, C. Soubiran2, C. Travaglio3, 4 and M. Busso4, 51 Odessa Astronomical Observatory, and Isaac Newton Institute of Chile, Odessa Branch, Shevchenko Park, Odessa 65014, Ukraine
e-mail: tamar@deneb.odessa.ua; val@deneb.odessa.ua
2 Observatoire de Bordeaux, CNRS UNR 5804, BP 89, 33270 Floirac, France
e-mail: soubiran@observ.u-bordeaux.fr
3 Max-Planck-Institut für Astrophysik, Karl-Schwarzschild-Strasse 1, 85741 Garching bei München, Germany
e-mail: claudia@mpa-garching.mpg.de
4 Istituto Nazionale di Astrofisica (INAF) - Osservatorio Astronomico di Torino, via Osservatorio 20, 10025 Pino Torinese (To), Italy
5 Department of Physics, University of Perugia, Italy
e-mail: busso@pg.infn.it
(Received 7 May 2002 / Accepted 20 September 2002 )
Abstract
We present new observations of copper and zinc
abundances in 90 metal-poor stars, belonging to the metallicity range
![$\rm -3< [Fe/H]<-0.5$](/articles/aa/abs/2002/46/aa2651/img1.gif){kind=small}
. The present study is based on high resolution
spectroscopic measurements collected at the Haute Provence
Observatoire (
,
S/N>100). The trend of Cu and Zn abundances as
a function of the metallicity [Fe/H] is discussed and compared to
that of other heavy elements beyond iron. We also estimate
spatial velocities and galactic orbital parameters for our
target stars in order to disentangle the population of
disk stars from that of halo stars using kinematic criteria.
In the absence of a firm a priori
knowledge of the nucleosynthesis mechanisms controlling
Cu and Zn production, and of the relative stellar sites, we
derive constraints on these last from the trend of the observed
ratios [Cu/Fe] and [Zn/Fe] throughout the history of
the Galaxy, as well as from a few well established properties of
basic nucleosynthesis processes in stars. We thus confirm
that the production of Cu and Zn requires a number of different
sources (neutron captures in massive stars,
s-processing in low and intermediate mass stars, explosive
nucleosynthesis in various supernova types). We also attempt a
ranking of the relative roles played by different production
mechanisms, and verify these hints through a simple estimate of
the galactic enrichment in Cu and Zn. In agreement with
suggestions presented earlier, we find evidence that
type Ia Supernovae must play a relevant role, especially
for the production of Cu.
Key words: nuclear reactions, nucleosynthesis -- stars: abundances -- stars: kinematics -- Galaxy: evolution
Offprint request: T. V. Mishenina, tamar@deneb.odessa.ua
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