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A&A 375, 899-908 (2001)
DOI: 10.1051/0004-6361:20010886
Light element non-LTE abundances of 
Bootis stars
II. Nitrogen and sulphur
I. Kamp1, I. Kh. Iliev2, E. Paunzen3, 4, O. I. Pintado5, 6, E. Solano7, 6 and I. S. Barzova21 Leiden Observatory, Niels Bohrweg 2, PO Box 9513, 2300 RA Leiden, The Netherlands
2 Institute of Astronomy, National Astronomical Observatory, and Isaac Newton Institute of Chile Bulgarian Branch, PO Box 136, 4700 Smolyan, Bulgaria
e-mail: rozhen@mbox.digsys.bg
3 Institut für Astronomie der Universität Wien, Türkenschanzstr. 17, 1180 Wien, Austria
e-mail: Ernst.Paunzen@univie.ac.at
4 Zentraler Informatikdienst der Universität Wien, Universitätsstr. 7, 1010 Wien, Austria
5 Departamento de Física, Facultad de Ciencias Exactas y Tecnología, Universidad Nacional de Tucumán, Argentina -Consejo Nacional de Investigaciones Científicas y Técnicas de la República Argentina, Argentina
e-mail: opintado@tucbbs.com.ar
6 Visiting Astronomers at Complejo Astronomico El Leoncito
7 Laboratorio de Astrofísica Espacial y Física Fundamental (LAEFF), Apartado de Correos 50727, 28080 Madrid, Spain
e-mail: esm@vilspa.esa.es
(Received 18 May 2001 / Accepted 31 May 2001 )
Abstract
One of the main characteristics proclaimed for the group of the
Bootis stars is the apparent solar abundance of the light
elements C, N, O and S. The typical abundance pattern is
completed by the strong underabundances of the Fe-peak elements.
In the first paper of this series, we have shown that
carbon is less abundant than oxygen but both elements
are still significantly more abundant than Fe-peak elements. The mean
abundances, based on a detailed non-LTE investigation, were found
-0.37 dex and -0.07 dex, respectively.
As a further step, we now present non-LTE abundances of nitrogen
and sulphur for thirteen members of the Bootis group based on
several spectral lines between 8590 Åand 8750 Å.
Furthermore, LTE abundances for calcium in the same spectral
range were derived and compared with values from the literature.
Similar to the mean abundances of carbon and oxygen, nearly
solar values were found (-0.30 dex for nitrogen and -0.11 dex
for sulphur) for our sample of program stars. Among our
sample, one previously undetected binary system (HD 64491) was
identified.
From a statistical point of view, the abundances of the light
elements range from slightly overabundant to moderately underabundant
compared to the Sun. However, the individual objects always exhibit
a similiar pattern, with the Fe-peak elements being significantly more
underabundant than the light elements.
No correlation of the derived abundances with astrophysical parameters
such as the effective temperature, surface gravity or projected
rotational velocity was found. Furthermore, the abundances of the
light elements do not allow us to discriminate between any proposed
theory.
Key words: stars: abundances -- stars: atmospheres -- stars: chemically peculiar -- stars: early-type
Offprint request: I. Kamp, kamp@strw.leidenuniv.nl
SIMBAD Objects
© ESO 2001
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