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Binary and Other Recycled Pulsars

Published online by Cambridge University Press:  07 August 2017

Virginia Trimble*
Affiliation:
Astronomy Program University of Maryland College Park MD 20742 USA Physics Department University of California Irvine CA 92717 USA

Abstract

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Binary pulsars and others with weak fields and rapid rotation now number several dozen and appear to have been spun up by close binary mass transfer. Some are lineal descendents of X-ray binaries; others may result from accretion-induced collapse of binary white dwarfs or from captures, exchanges, and collisions in clusters. Seven accurate neutron star masses, 1.27-1.44 Mo, have been measured so far. Outstanding issues include the dominant formation process in various sites and the time history of the neutron stars' magnetic fields in and out of binaries.

Type
Invited Papers
Copyright
Copyright © Kluwer 1992 

References

Backer, D.C. et al. 1982. Nature 300, 615 Google Scholar
Bhattacharya, D. & van den Heuvel, E.P.J., 1991. Phys. Rep. 203, 1 CrossRefGoogle Scholar
Bailyn, C.D. & Grindlay, J.E., 1990. ApJ 353, 159 Google Scholar
Bailes, M., Lyne, A.G. & Shemer, S.L., 1991. Nature 352, 311 CrossRefGoogle Scholar
Canal, R., Isern, J. & Labay, J., 1990. ARAA 28, 183 Google Scholar
Damour, T. & Taylor, J.H., 1990. ApJ 366, 501 Google Scholar
Emmering, R.T. & London, R.A., 1991. ApJ 363, 589 Google Scholar
Fruchter, A.J. & Goss, W.M., 1990. ApJ 365, L63 CrossRefGoogle Scholar
Fruchter, A.J. et al. 1988. Nature 333, 237 CrossRefGoogle Scholar
Glendenning, N.K. 1989. PRL 63, 2629 Google Scholar
Grindlay, J.E. 1988. IAU Symp. 126, 347 Google Scholar
Gunn, J.E. & Ostriker, J.P., 1970. ApJ 160, 979 Google Scholar
Helfand, D.J. & Hamilton, T.T., 1991. Nature 352, 481 Google Scholar
van den Heuvel, E.P.J. 1981. IAU Symp. 93, 155 Google Scholar
van den Heuvel, E.P.J. 1984. J. Ap. Astron. 5, 209 Google Scholar
van den Heuvel, E.P.J. & Rappaport, S.A., (eds.), 1991. X-Ray Binaries and the Formation of Binary and Millisecond Pulsars (NATO ASI: Cambridge Univ. Press, in press)Google Scholar
Ho, W., Romani, R. & Stinebring, D., 1991. ApJ 366, L33 Google Scholar
Ho, C. et al., (eds.) 1991. Gamma Ray Burst Workshop (Cambridge University Press, in press)Google Scholar
Hulse, R.A. & Taylor, J.H., 1975. ApJ 195, L51 Google Scholar
Johnston, H.M. & Kulkarni, S., 1991. ApJ 368, 504 Google Scholar
Kulkarni, S. et al. 1990. ApJ 363, L15 Google Scholar
Kulkarni, S., Narayan, R. & Romani, R., 1990. ApJ 356, 174 Google Scholar
Lyne, A.G. 1991. Nature 352, 573 Google Scholar
Manchester, R.N. et al. 1991. Nature 352, 219 Google Scholar
Nice, D.J. et al. 1990. ApJ 361, L61 Google Scholar
Paczynski, B. 1976, IAU Symp. 73, 75 Google Scholar
Paczynski, B. 1990. ApJ 365, L9 Google Scholar
Phinney, E.S. & Kulkarni, S., 1991. Nature (in press) Google Scholar
Podsiadlowski, P., Pringle, J.E. & Rees, M.J., 1991. Preprint Google Scholar
Prince, T.A. et al. 1991. ApJ 374, L41 Google Scholar
Rasio, F.A. & Shapiro, S.L., 1991. ApJ 377, 559 Google Scholar
Ryba, M.F. & Taylor, J.H., 1991. ApJ 371, 739 Google Scholar
Srinivasan, G. et al. 1991. Current Science 59, 31 Google Scholar
Taam, R.E. & van den Heuvel, E.P.J., 1986. ApJ 305, 235 CrossRefGoogle Scholar
Taylor, J.H. 1988. IAU Symp. 125, 383 Google Scholar
Taylor, J.H. & Weinberg, D.H., 1989. ApJ 345, 434 CrossRefGoogle Scholar
Trimble, V. 1991. Contemporary Physics (in press) Google Scholar
Trimble, V. 1991. Elsewhere in this volume Google Scholar
Wijers, R.A.M.J. & van Paradijs, J., 1991, AAp 241, L37 Google Scholar
Wolszczan, A. 1991. Nature 350, 681 Google Scholar