Bibcode
Pietsch, W.; Fliri, J.; Freyberg, M. J.; Greiner, J.; Haberl, F.; Riffeser, A.; Sala, G.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 442, Issue 3, November II 2005, pp.879-894
Fecha de publicación:
11
2005
Revista
Número de citas
83
Número de citas referidas
71
Descripción
We searched for X-ray counterparts of optical novae detected in
M 31 and M 33. We combined an
optical nova catalogue from the WeCAPP survey with optical novae
reported in the literature and correlated them with the most recent
X-ray catalogues from ROSAT, XMM-Newton, and Chandra, and in addition
searched for nova correlations in archival data. We report 21 X-ray
counterparts for novae in M 31 mostly identified as
supersoft sources (SSS) by their hardness ratios and two in M
33. Our sample more than triples the number of known optical
novae with a supersoft X-ray phase. Most of the counterparts are covered
in several observations allowing us to constrain their X-ray light
curves. Selected brighter sources were classified by their XMM-Newton
EPIC spectra. We use the well-determined start time of the SSS state in
two novae to estimate the hydrogen mass ejected in the outburst to
~10-5~M&sun; and
~10-6~M&sun;, respectively. The supersoft X-ray
phase of at least 15% of the novae starts within a year. At least one of
the novae shows a SSS state lasting 6.1 years after the optical
outburst. Six of the SSSs turned on between 3 and 9 years after the
optical discovery of the outburst and may be interpreted as recurrent
novae. If confirmed, the detection of a delayed SSS phase turn-on may be
used as a new method to classify novae as recurrent. At the moment, the
new method yields a ratio of recurrent novae to classical novae of 0.3,
which is in agreement (within the errors) with previous works.