PROBING THE MYSTERIES OF THE X-RAY BINARY 4U 1210-64 WITH ASM, PCA, MAXI, BAT, AND SUZAKU

4U 1210-64 has been postulated to be a high-mass X-ray binary powered by the Be mechanism. X-ray observations with Suzaku, the ISS Monitor of All-sky X-ray Image (MAXI), and the Rossi X-ray Timing Explorer Proportional Counter Array (PCA) and All Sky Monitor (ASM) provide detailed temporal and spectral information on this poorly understood source. Long-term ASM and MAXI observations show distinct high and low states and the presence of a 6.7101 +/- 0.0005 day modulation, interpreted as the orbital period. Folded light curves reveal a sharp dip, interpreted as an eclipse. To determine the nature of the mass donor, the predicted eclipse half-angle was calculated as a function of inclination angle for several stellar spectral types. The eclipse half-angle is not consistent with a mass donor of spectral type B5 V; however, stars with spectral types B0 V or B0-5 III are possible. The best-fit spectral model consists of a power law with index Gamma = 1.85(-0.05)(+0.04) and a high-energy cutoff at 5.5 +/- 0.2 keV modified by an absorber that fully covers the source as well as partially covering absorption. Emission lines from S XVI K alpha, Fe K alpha, FeXXXV K alpha, and Fe XXVI K alpha were observed in the Suzaku spectra. Out of eclipse, the Fe K alpha line flux was strongly correlated with unabsorbed continuum flux, indicating that the Fe I emission is the result of fluorescence of cold dense material near the compact object. The Fe I feature is not detected during eclipse, further supporting an origin close to the compact object.