Wednesday, November 7, 2012

1211.1194 (E. M. Ratti et al.)

CXOGBSJ174444.7-260330: a new long orbital period cataclysmic variable in a low state    [PDF]

E. M. Ratti, T. F. J. van Grunsven, P. G. Jonker, C. T. Britt, R. I. Hynes, D. Steeghs, S. Greiss, M. A. P. Torres, T. J. Maccarone, P. J. Groot, C. Knigge, V. A. Villar, A. C. Collazzi, V. J. Mikles, L. Gossen
We present phase-resolved spectroscopy and photometry of a source discovered with the Chandra Galactic Bulge Survey (GBS), CXOGBSJ174444.7-260330 (aka CX93 and CX153 in the previously published GBS list). We find two possible values for the orbital period P, differing from each other by 13 seconds. The most likely solution is P =5.69014(6) hours. The optical lightcurves show ellipsoidal modulations, whose modeling provides an inclination of 32+-1 degrees for the most likely P. The spectra are dominated by a K5V companion star (the disc veiling is <~5%). Broad and structured emission from the Balmer lines is also detected, as well as fainter emission from HeI. From the absorption lines we measure K2 =117+-8km/s and v sin i = 69+-7km/s. By solving the system mass function we find M1=0.8+-0.2Msun for the favored P and i, consistent with a white dwarf accretor, and M2=0.6+-0.2Msun. We estimate a distance in the range 400-700 pc. Although in a low accretion state, both spectroscopy and photometry provide evidence of variability on a timescale of months or faster. Besides finding a new, long orbital period cataclysmic variable in a low accretion state, this work shows that the design of the GBS works efficiently to find accreting X-ray binaries in quiescence, highlighting that the spectra of CVs in a low-accretion state can at times appear suggestive of a quiescent neutron star or a black hole system.
View original: http://arxiv.org/abs/1211.1194

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