Z. Wang, R. P. Breton, C. O. Heinke, C. J. Deloye, J. Zhong
We report on time-resolved optical imaging of the X-ray binary SAX J1808.4-3658 during its quiescent state and 2008 outburst. The binary, containing an accretion-powered millisecond pulsar, has a large sinusoidal-like modulation in its quiescent optical emission. We employ a Markov chain Monte Carlo technique to fit our multi-band light curve data in quiescence with an irradiated star model, and derive a tight constraint of $50^{+6}_{-5}$ deg on the inclination angle $i$ of the binary system. The pulsar and its companion are constrained to have masses of 1.0--1.28 $M_{\sun}$ and 0.03--0.06 $M_{\sun}$ (both 1$\sigma$ ranges), respectively. The dependence of these results on the measurements of the companion's projected radial velocity is discussed. We also find that the accretion disk had nearly constant optical fluxes over a $\sim$500 day period in the quiescent state our data covered, but started brightening 1.5 months before the 2008 outburst. A change of the disk to a steeper optical spectrum was seen at the onset of the brightening. Variations in modulation during the outburst were detected in our four observations made 7-12 days after the start of the outburst, and a sinusoidal-like modulation with 0.2 mag amplitude changed to have a smaller amplitude of 0.1 mag. The modulation variations are discussed. We estimate the albedo of the companion during its quiescence and the outburst, which was approximately 0 and 0.8 (for isotropic emission), respectively. This large difference probably provides additional evidence that the neutron star in the binary turns on as a radio pulsar in quiescence.
View original:
http://arxiv.org/abs/1108.4745
No comments:
Post a Comment