Variable O VI and N V Emission from the X-ray Binary LMC X-3: Heating of the Black Hole Companion

Details Variable O VI and N V Emission from the X-ray Binary LMC X-3: Heating of the Black Hole Companion Variable O VI and N V Emission from the X-ray Binary LMC X-3: Heating of the Black Hole Companion

2010-07-21

arxiv.org/abs/1007.3637v1

Astronomy and Astrophysics

Astrophysics

High Energy Astrophysical Phenomena

To be published in the Astronomical Journal; 10 pages, 9 figures, 3 tables

Scientific paper

Based on high-resolution ultraviolet spectroscopy obtained with FUSE and COS, we present new detections of O VI and N V emission from the black-hole X-ray binary (XRB) system LMC X-3. We also update the ephemeris of the XRB using recent radial velocity measurements obtained with the echelle spectrograph on the Magellan-Clay telescope. We observe significant velocity variability of the UV emission, and we find that the O VI and N V emission velocities follow the optical velocity curve of the XRB. Moreover, the O VI and N V intensities regularly decrease between binary phase = 0.5 and 1.0, which suggests that the source of the UV emission is increasingly occulted as the B star in the XRB moves from superior to inferior conjunction. These trends suggest that illumination of the B-star atmosphere by the intense X-ray emission from the accreting black hole creates a hot spot on one side of the B star, and this hot spot is the origin of the O VI and N V emission. However, the velocity semiamplitude of the ultraviolet emission, K_{UV}~180 km/s, is lower than the optical semiamplitude; this difference could be due to rotation of the B star. If our hypothesis about the origin of the highly ionized emission is correct, then careful analysis of the emission occultation could, in principle, constrain the inclination of the XRB and the mass of the black hole.

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