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Torque Reversals in Disk Accreting Pulsars

Published online by Cambridge University Press:  05 March 2013

Jianke Li
Affiliation:
ANU Astrophysical Theory Centre, Department of Mathematics, Faculty of Science & the Mount Stromlo and Siding Spring Observatories, Australian National University, ACT 0200, Australia; ljk@maths.anu.edu.au
Dayal T. Wickramasinghe
Affiliation:
ANU Astrophysical Theory Centre, Department of Mathematics, Faculty of Science & the Mount Stromlo and Siding Spring Observatories, Australian National University, ACT 0200, Australia; dayal@maths.anu.edu.au
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Abstract

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X-ray binaries in which the accreting component is a neutron star commonly exhibit significant changes in their spin. In the system Cen X-3, a disk accreting binary system, the pulsar was observed to spin up at a rate = 8 × 10−13 Hz s−1 when averaged over the past twenty years, but significant fluctuations were observed above this mean. Recent BASTE observations have disclosed that these fluctuations are much larger than previously noted, and appeared to be a system characteristic. The change in the spin state from spin-up to spin-down or vice-versa occurs on a time scale that is much shorter than the instrument can resolve (≤1 d), but appears always to be a similar amplitude, and to occur stochastically. These observations have posed a problem for the conventional torque–mass accretion relation for accreting pulsars, because in this model the spin rate is closely related to the accretion rate, and the latter needs to be finely tuned and to change abruptly to explain the observations. Here we review recent work in this direction and present a coherent picture that explains these observations. We also draw attention to some outstanding problems for future studies.

Type
Research Article
Copyright
Copyright © Astronomical Society of Australia 1998

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