Hostname: page-component-8448b6f56d-gtxcr Total loading time: 0 Render date: 2024-04-23T11:34:57.680Z Has data issue: false hasContentIssue false
  • English
  • Français

Accreting Neutron Stars

Published online by Cambridge University Press:  04 August 2017

N.E. White
N.E. White*
Affiliation:
EXOSAT Observatory/ESOC Robert Bosch Str 5 6100 Darmstadt West Germany

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

This paper reviews accreting neutron stars in X-ray binaries, with particular emphasis on how variations in magnetic field strength may be responsible for explaining the spectral and temporal properties observed from the various systems. This includes a review of X-ray pulsars in both low and high mass systems, and a discussion of the spectral properties of the low mass X-ray binaries.

Type
II. Accretion Powered Pulsars
Information
Symposium - International Astronomical Union , Volume 125: The Origin and Evolution of Neutron Stars , 1987 , pp. 135 - 148
Copyright
Copyright © Reidel 1987 

References

Alpar, M.A. et al 1982. Nature, 300, 728.Google Scholar
Boynton, P. et al 1984, Ap. J. 283, L53.Google Scholar
Fabian, A.C. et al 1983. Nature, 301, 222.CrossRefGoogle Scholar
Fahlman, G.G. and Gregory, P.C. 1983. in ‘Supernova Remnants and their X-ray Emission IAU Symp.101’, eds: Danziger, and Gorenstein, ], p.445.Google Scholar
Flowers, E. and Ruderman, M.A. 1977. Ap. J., 215, 302.CrossRefGoogle Scholar
Friedman, J.L., Ipser, J.R. and Parker, L. 1984. Nature, 312, 255.Google Scholar
Gregory, P.C. and Fahlman, G.G. 1980, Nature, 287, 805.Google Scholar
Henrichs, H.F. 1983. in ‘Accretion Driven Stellar X-ray Sources’ [Ed: Lewin, and van den Heuvel, ], p.393.Google Scholar
Joss, P.C., Avni, Y. and Rappaport, S. 1978. Ap. J., 221, 645.Google Scholar
Joss, P.C. and Rappaport, S.A. 1984. Ann. Rev. Astr. Ap., 22, 537.CrossRefGoogle Scholar
Joss, P.C. and Rappaport, S.A. 1983. Nature, 304, 419.Google Scholar
Lamb, F.K. 1986, in ‘the Evolution of Galactic X-ray Binaries’, [Ed: Truemper, , Lewin, and Brinkmann, ], p.227.Google Scholar
Lipunov, V.M. and Postnov, K.A. 1985. Astr. Ap., 144, L13.Google Scholar
Mitsuda, K. et al 1984, P.A.S.J., 36, 741.Google Scholar
Middleditch, J. et al 1981. Ap. J., 244, 1001.Google Scholar
Middleditch, J. et al 1983. Ap. J., 274, 791.Google Scholar
Papaloizou, J. and Pringle, J.E. 1978. M.N.R.A.S., 184, 501.Google Scholar
Rappaport, S.A., Verbunt, F. and Joss, P.C. 1983. Ap. J. 275, 713.Google Scholar
Shapiro, S.L., Lightman, A.P. and Eardley, D.M. 1976, Ap. J., 204, 187.Google Scholar
Shakura, N.I. and Sunyaev, R.A. 1973, Astr. Ap., 24, 337.Google Scholar
Stella, L. and Rosner, R. 1984. Ap. J., 277, 312.Google Scholar
Stella, L. et al 1985. Ap. J. 288, L45.Google Scholar
Stella, L., White, N.E. and Rosner, R. 1986. Ap. J., in press.Google Scholar
Sutantyo, W. et al 1986. in ‘The Evolution of Galactic X-ray Binaries’, [Ed: Truemper, , Lewin, and Brinkmann, ], p.261.Google Scholar
Taam, R.E. and van den Heuvel, E.P.J. 1986. Ap. J., 305, 235.CrossRefGoogle Scholar
Taylor, J. these proceedings.Google Scholar
Terrell, J. and Priedhorsky, W.C. 1984. Ap. J., 285, L15.Google Scholar
Truemper, J. et al 1978. Ap. J., 219, L105.Google Scholar
van den Heuvel, E.P.J. and Bonsema, P.T. 1984. Astr. Ap., 139, L1.6.Google Scholar
van den Heuvel, E.P.J., van Paradijs, J.A. and Taam, R.E. 1986. Nature, 322, 153.Google Scholar
Webbink, R.F., Rappaport, S.A., and Savonije, G.J. 1983. Ap. J. 270, 678.Google Scholar
White, N.E., Swank, J.H. and Holt, S.S., 1983, 270, 711.Google Scholar
White, N.E. et al 1986. M.N.R.A.S., 218, 129.Google Scholar
White, N.E. 1986. in ‘the Evolution of Galactic X-ray Binaries’, [Ed: Truemper, , Lewin, and Brinkmann, ], p.227.Google Scholar