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A&A 413, 643-655 (2004)
DOI: 10.1051/0004-6361:20034045
X-ray spectroscopy of the Hertzsprung-gap giant star 31 Com, observed with XMM-Newton
L. Scelsi1, A. Maggio2, G. Peres1 and Ph. Gondoin31 Dipartimento di Scienze Fisiche ed Astronomiche, Sezione di Astronomia, Università di Palermo, Piazza del Parlamento 1, 90134 Palermo, Italy
2 INAF - Osservatorio Astronomico di Palermo, Piazza del Parlamento 1, 90134 Palermo, Italy
3 Research and Scientific Support Department, ESA-ESTEC, Noordwijk, The Netherlands
(Received 3 July 2003 / Accepted 29 September 2003)
Abstract
We have analysed the XMM-Newton X-ray spectra of the yellow
giant 31 Com with the aim of deriving information on the coronal structures of
this archetypical Hertzsprung-gap star. To determine the emission measure
distribution vs. temperature,
EM(T), and the elemental abundances of the
coronal plasma, with an accurate line-based approach, we have
developed a new method for simple and accurate line measurements, based on
rebinning and co-adding the two RGS spectra. We have reconstructed the
EM(T) independently with both APED and CHIANTI atomic databases in order to
investigate possible differences in the final outcome of the analysis, and we
have obtained consistent results. The derived emission
measure distribution has a well defined peak at
K and
a significant amount of plasma at higher temperatures; there is
also evidence for plasma at temperatures below ~
106.5 K, with a mean
electron density of ~
cm
-3, as inferred from the
line ratio of the
triplet. We have made a global fitting of the
EPIC spectra, using multi-component isothermal (3-T) model, and then compared
the results with the
EM(T), looking for a consistent multi-temperature
description of both the RGS and EPIC spectra, over the whole spectral range.
While the
EM(T) and the 3-T models individually provide a good description of
the data set on which they are based, none of them describes adequately the
data of all the other instruments; the disagreements may be related, at least
in part, to cross-calibration problems. Finally, we have used the
EM(T) to derive information about the properties of the coronal structures. Our
results indicate that the corona of 31 Com is dominated by a class of magnetic
loops with peak temperature ~
107 K and apparently more isothermal
than the solar ones.
Key words: X-rays: stars -- techniques: spectroscopic -- stars: activity -- stars: coronae -- stars: individual: 31 Com
Offprint request: L. Scelsi, scelsi@oapa.astropa.unipa.it
SIMBAD Objects in preparation
© ESO 2004
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