Bibcode
Mata Sánchez, D.; González Hernández, J. I.; Israelian, G.; Santos, N. C.; Sahlmann, J.; Udry, S.
Bibliographical reference
Astronomy and Astrophysics, Volume 566, id.A83, 16 pp.
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6
2014
Journal
Citations
12
Refereed citations
11
Description
Context. It is well known that stars with giant planets are, on average,
more metal-rich than stars without giant planets, whereas stars with
detected low-mass planets do not require to be metal-rich. Aims:
With the aim of studying the weak boundary that separates giant planets
and brown dwarfs (BDs) and their formation mechanism, we analyze the
spectra of a sample of stars with already confirmed BD companions both
by radial velocity and astrometry. Methods: We employ standard
and automatic tools to perform an equivalent width (EW) based analysis
and to derive chemical abundances from the CORALIE spectra of stars with
BD companions. Results: We compare these abundances with those of
stars without detected planets and with low-mass and giant-mass planets.
We find that stars with BDs do not have metallicities and chemical
abundances similar to those of giant-planet hosts, but they resemble the
composition of stars with low-mass planets. The distribution of mean
abundances of α-elements and iron peak elements of stars with BDs
exhibit a peak at about solar abundance, whereas for stars with low-mass
and high-mass planets the [Xα/H] and [XFe/H]
peak abundances remain at ~-0.1 dex and ~+0.15 dex, respectively. We
display these element abundances for stars with low-mass and high-mass
planets, and BDs versus the minimum mass, mC sin i, of the
most massive substellar companion in each system, and we find a maximum
in α-element as well as Fe-peak abundances at mC sin i
~ 1.35 ± 0.20 Jupiter masses. Conclusions: We discuss the
implications of these results in the context of the formation scenario
of BDs compared with that of giant planets.
Appendices are available in electronic form at http://www.aanda.org
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Observational Tests of the Processes of Nucleosynthesis in the Universe
Several spectroscopic analyses of stars with planets have recently been carried out. One of the most remarkable results is that planet-harbouring stars are on average more metal-rich than solar-type disc stars. Two main explanations have been suggested to link this metallicity excess with the presence of planets. The first of these, the “self
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Israelian