M. A. Smith, R. Lopes de Oliveira, C. Motch, G. W. Henry, N. D. Richardson, K. S. Bjorkman, Ph. Stee, D. Mourard, J. D. Monnier, X. Che, R. Buecke, E. Pollmann, D. R. Gies, G. H. Schaefer, T. ten Brummelaar, H. A. McAlister, N. H. Turner, J. Sturmann, L. Sturmann, S. T. Ridgway
\gamma Cas is the prototypical classical Be star and is best known for its
variable hard X-ray emission. To elucidate the reasons for this emission, we
mounted a multiwavelength campaign in 2010 centered around 4 XMM observations.
The observational techniques included long baseline optical interferometry
(LBOI), monitoring by an Automated Photometric Telescope and Halpha
observations. Because gamma Cas is also known to be in a binary, we measured
Halpha radial velocities and redetermined its period as 203.55+/-0.2 days and
an eccentricity near zero. The LBOI observations suggest that the star's
decretion disk was axisymmetric in 2010, has an inclination angle near 45^o,
and a larger radius than previously reported. The Be star began an "outburst"
at the beginning of our campaign, made visible by a disk brightening and
reddening during our campaign. Our analyses of the new high resolution spectra
disclosed many attributes found from spectra obtained in 2001 (Chandra) and
2004 (XMM). As well as a dominant hot 14 keV thermal component, these familiar
ones included: (i) a fluorescent feature of Fe K stronger than observed at
previous times, (ii) strong lines of N VII and Ne XI lines indicative of
overabundances, and (iii) a subsolar Fe abundance from K-shell lines but a
solar abundance from L-shell ions. We also found that 2 absorption columns are
required to fit the continuum. While the first one maintained its historical
average of 1X10^21 cm^-2, the second was very large and doubled to 7.4X10^23
cm^-2 during our X-ray observations. Although we found no clear relation
between this column density and orbital phase, it correlates well with the disk
brightening and reddening both in the 2010 and earlier observations. Thus, the
inference from this study is that much (perhaps all?) of the X-ray emission
from this source originates behind matter ejected by gamma Cas into our line of
sight.
View original:
http://arxiv.org/abs/1201.6415
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