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Periastron Observations of the PSR B1259-63/SS 2883 Binary System

Published online by Cambridge University Press:  25 May 2016

Simon Johnston
Simon Johnston*
Affiliation:
Research Centre for Theoretical Astrophysics, University of Sydney, NSW 2006, Australia

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PSR B1259-63 is a 47-millisecond pulsar which was discovered in a high frequency survey of the galactic plane (Johnston et al. 1992a) and was subsequently found to be in a highly eccentric orbit with a main-sequence Be star known as SS 2883 (Johnston et al. 1992b). Radio observations of the pulsar led to a phase connected timing solution which predicted the epoch of periastron to be 1994 January 9 (MJD 49361.2); optical observations of the Be star led to a determination of its mass and of the size of its circumstellar disk (Johnston et al. 1994a): the star is of approximate spectral type B1e, with mass 10 M and radius 6 R. If this mass is correct and the pulsar has a mass of 1.4 M, then the inclination angle of the plane of the orbit with respect to the sky is 35°. This pulsar has an unusually flat radio spectrum compared to most pulsars, which makes it easily detectable up to 8.4 GHz. The narrow pulse permits dispersion and scattering measurements for studying the ionized plasma in the system. Moreover, the pulses are highly linearly polarized and permit determination of the rotation measure (RM), allowing measurements of the magnetic field along the line of sight. The 3.5-yr orbit of the pulsar around its companion thus provides us with an excellent probe of the stellar wind of the Be star over a wide frequency range.

Type
4 Radio Pulsars
Information
Symposium - International Astronomical Union , Volume 165: Compact Stars in Binaries , 1996 , pp. 263 - 269
Copyright
Copyright © Kluwer 1996 

References

Dougherty, S.M. & Taylor, A.R. 1992, Nat 359, 808.Google Scholar
Dougherty, S.M., Taylor, A.R. & Waters, L.B.F.M. 1991, A&A 248, 175.Google Scholar
Johnston, S. et al. 1992a, MNRAS 255, 401.Google Scholar
Johnston, S. et al. 1992b, ApJ 387, L37.CrossRefGoogle Scholar
Johnston, S. et al. 1994a, MNRAS 268, 430.Google Scholar
Johnston, S. et al. 1994b, MNRAS (submitted).Google Scholar
Manchester, R.N. & Johnston, S. 1994, ApJ (submitted).Google Scholar
Manchester, R.N. et al. 1994, ApJ (submitted).Google Scholar
Melatos, A., Johnston, S. & Melrose, D.B. 1994, MNRAS (submitted).Google Scholar
Slettebak, A., Collins, G.W. & Truax, R. 1992, ApJS 81, 335.Google Scholar
Struve, O. 1931, ApJ 73, 94.CrossRefGoogle Scholar
Waters, L.B.F.M. 1986, A&A 162, 121.Google Scholar
Waters, L.B.F.M., Coté, J. & Lamers, H.J.G.L.M. 1987, A&A 185, 206.Google Scholar