Gamma-ray absorption in massive X-ray binaries

Astronomy and Astrophysics – Astrophysics

Scientific paper

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10 pages, 10 figures, accepted by A&A

Scientific paper

10.1051/0004-6361:20054233

Gamma-ray emission in the TeV range has been detected by HESS from two X-ray binaries: PSR B1259-63 and LS 5039. In both, the early-type star provides large numbers of target photons for pair-production with TeV gamma-rays. This results in a modulation of the gamma-ray flux as the relative positions of the gamma-ray source and companion star change with orbital phase. The lightcurve and spectrum of absorption provide useful diagnostics for the location and nature of gamma-ray emission. The expected orbital variations of the absorption spectrum and flux are calculated for LS 5039, PSR B1259-63 and LSI +61 303, a system similar to LS 5039 but still undetected at TeV energies. In LS 5039, emission close to a black hole or a neutron star primary is considered. In both cases, the flux above 250 GeV drops by more than an order-of-magnitude near periastron due to absorption. A black hole yields a clear spectral signature in the average spectrum at 400 GeV. A neutron star yields more variability, with the spectral feature moving from 200 GeV to 2 TeV. The absorbed fraction of the flux can be as small as 20%, allowing for an almost direct view of the intrinsic spectrum. Low variability requires emission on large scales, more than 0.7 AU away to have <50% absorption in a jet. Such predictions are essential to distinguish between variability due to the gamma-ray emission process from that due to absorption. A modulation in LS 5039 would provide a novel way to constrain the gamma-ray source. Its absence would imply that gamma-ray emission occurs on large scales.

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