Lewis Ball scite author profile

We derive light curves for the hard γ-ray emission, at energies up to several TeV, expected from the unique pulsar/Be-star binary system PSR B1259−63. This is the only known system in our galaxy in which a radio pulsar is orbiting a main sequence star. We show that inverse Compton emission from the electrons and positrons in the shocked pulsar wind, scattering target photons from the Be star, produces a flux of hard γ-rays that should be above the sensitivity threshold of present day atmospheric Cerenkov detectors. Furthermore, we predict that the flux of hard γrays produced via this mechanism has a characteristic variation with orbital phase that should be observable, and which is not expected from any other mechanism.

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Radio observations of PSR B1259-63 through the 2004 periastron passage

Johnston

Ball

Wang

et al. 2005

Monthly Notices of the Royal Astronomical Society

146

187

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We report here on extensive radio observations of the binary system containing PSR B1259−63 and the Be star SS 2883, made around the time of the 2004 periastron. This is the fourth periastron to have been observed in detail. As in previous observations, changes in the dispersion and rotation measures of the pulsar are detected over a period spanning 200 d. We show that the eclipse of the pulsed emission lasts from 16 d prior to periastron to 15 d after periastron and is consistent from one periastron to the next. We demonstrate that the timing solution proposed by Wang, Johnston & Manchester provides a good fit through the 2004 periastron. The light curve of the transient unpulsed radio emission is broadly similar from one periastron to the next. For this periastron, however, the light curve is strongly peaked post‐periastron with rather little enhancement prior to periastron, in contrast to the 2000 periastron where the peak flux densities were more equal. These observations remain consistent with the interpretation that the pulsar passes through the dense circumstellar disc of the Be star just before and just after periastron. The observed differences from one periastron to the next can be ascribed to variations in the local disc density and magnetic field structure at the time the pulsar enters the disc.

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Australian SKA Pathfinder: A High-Dynamic Range Wide-Field of View Survey Telescope

et al. 2009

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Multifrequency Radio Measurements of Supernova 1987a Over 22 Years

Zanardo

Staveley‐Smith

Ball

et al. 2010

ApJ

120

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Lewis Ball

Inverse Compton emission of TeV gamma rays from PSR B1259-63

Radio observations of PSR B1259-63 through the 2004 periastron passage

Australian SKA Pathfinder: A High-Dynamic Range Wide-Field of View Survey Telescope

Multifrequency Radio Measurements of Supernova 1987a Over 22 Years

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