Swift reveals a ~5.7 day super-orbital period in the M31 globular cluster X-ray binary XB158
arXiv:1501.01978 · doi:10.1088/0004-637X/801/1/65
Abstract
The M31 globular cluster X-ray binary XB158 (a.k.a. Bo 158) exhibits intensity dips on a 2.78 hr period in some observations, but not others. The short period suggests a low mass ratio, and an asymmetric, precessing disk due to additional tidal torques from the donor star since the disk crosses the 3:1 resonance. Previous theoretical 3D smoothed particle hydrodynamical modeling suggested a super-orbital disk precession period 29$\pm$1 times the orbital period, i.e. $\sim$81$\pm$3 hr. We conducted a Swift monitoring campaign of 30 observations over ~1 month in order to search for evidence of such a super-orbital period. Fitting the 0.3--10 keV Swift XRT luminosity lightcurve with a sinusoid yielded a period of 5.65+/-0.05 days, and a >5$Ï$ improvement in $Ï^2$ over the best fit constant intensity model. A Lomb-Scargle periodogram revealed that periods 5.4--5.8 days were detected at a >3$Ï$ level, with a peak at 5.6 days. We consider this strong evidence for a 5.65 day super-orbital period, ~70\% longer than the predicted period. The 0.3--10 keV luminosity varied by a factor ~5, consistent with variations seen in long-term monitoring from Chandra. We conclude that other X-ray binaries exhibiting similar long-term behaviour are likely to also be X-ray binaries with low mass ratios and super-orbital periods.
Accepted for publication in ApJ; 4 pages, 3 figures