Iron lines from X-ray binaries

  • T. R. Kallman
II. X-ray Binaries
First Online:
Part of the Lecture Notes in Physics book series (LNP, volume 385)

Keywords

Column Density Equivalent Width Photoionization Cross Section Iron Line Ionization Parameter 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, log in to check access.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. Bambynek, W., Crasemann, B., Fink, R.W., Freund, H.-U., Mark, H., Swift, C.D., Price, R.E., and Rao, P.V., 1972, Rev. Mod. Phys., 44, 716.Google Scholar
  2. Band, D., Klein, R., Castor, J., and Nash, J., 1989, in, Proceedings of the 23rd ESLAB Symposium on Two Topics in X-ray Astronomy, ed. J. Hunt and B. Battrick (ESA SP-296).Google Scholar
  3. Barr, P., and Van der Woerd, H., 1989, in, Proceedings of the 23rd ESLAB Symposium on Two Topics in X-ray Astronomy” ed. J. Hunt and B. Battrick (ESA SP-296).Google Scholar
  4. Basko, M., 1978, Ap. J., 223, 268.Google Scholar
  5. Begelman, M., and deKool, M., 1989, in, Proceedings of Atlanta Workshop on Variability in Active Galactic Nuclei” ed. H.R. Miller and P. W. Wiita.Google Scholar
  6. Begelman, M. C., McKee, C. F., and Shields, G.A., 1983, Ap. J., 271,70.Google Scholar
  7. Begelman, M. C., and McKee, C.F., 1983, Ap. J., 271, 89.Google Scholar
  8. Jacobs, V., and Rosznyai, B. F., 1986, Phys. Rev. A., 34, 216.Google Scholar
  9. Hatchett, S. P., and Weaver, R., 1977, Ap. J., 215, 285.Google Scholar
  10. Kahn, S., 1990” this volume.Google Scholar
  11. Kahn, S., Seward, F.D., and Chlebowski, T., 1984, Ap. J., 283, 286.Google Scholar
  12. Kallman, T. R. 1989, in, Proceedings of the 23rd ESLAB Symposium on Two Topics in X-ray Astronomy ed. J. Hunt and B. Battrick (ESA SP-296).Google Scholar
  13. Kallman, T.R., and McCray, R. A., 1982, Ap. J. Supp., 50, 263.Google Scholar
  14. Kallman, T. R., Vrtilek, S. D., and Kahn, S. M., 1988, Ap. J., 345, 498.Google Scholar
  15. Kallman, T., and White, N.E., 1988, Astrophys. J., 341, 955.Google Scholar
  16. Krolik, J.H. and Kallman, T.R., 1984, Astrophys. J., 320, L5.Google Scholar
  17. Liedahl, D., Kahn, S.M., Goldstein, W., and Osterheld, A., 1990, Ap. J., 350, L37.Google Scholar
  18. Osterbrock, D. E., 1974, Astrophysics of Gaseous Nebulae ” (San Francisco: W.H. Freeman and Co.).Google Scholar
  19. Raymond J.C., and Smith, B. H., 1977, Ap. J. Supp., 35, 419.Google Scholar
  20. Shakura, N.I., and Sunyaev, R.A., 1973, Asir. and Ap., 24, 337.Google Scholar
  21. Smith, B., Raymond, J., Cowan, R., and Mann, J., 1985, Ap. J., 298, 898.Google Scholar
  22. Tarter, C. D., Tucker, W., and Salpeter, E. E., 1967, Ap. J., 156, 943.Google Scholar
  23. Vrtilek, S. D., et al. 1989, in, Proceedings of the 23rd ESLAB Symposium on Two Topics in X-ray Astronomy ed. J. Hunt and B. Battrick (ESA SP-296).Google Scholar
  24. White, N.E., and Holt, S.S., 1982, Ap. J., 257, 318.Google Scholar
  25. White, N.E., Peacock, A., and Taylor, B.G. 1985, Ap. J., 296, 475.Google Scholar

Copyright information

© Springer-Verlag 1991

Authors and Affiliations

  • T. R. Kallman
    • 1
  1. 1.Laboratory for High Energy AstrophysicsNASA/Goddard Space Flight CenterUK

Personalised recommendations