Astronomy and Astrophysics – Astrophysics
Scientific paper
1993-12-22
Astronomy and Astrophysics
Astrophysics
21 pages, uuencoded, compressed postscript, Applied Mathematics report # 93/48, submitted to ApJ
Scientific paper
A self-consistent, adiabatic model for the {\it long-time} behaviour of tidal capture binaries is presented. It is shown that most capture orbits behave chaotically, with the eccentricity following a quasi-random walk between the values of $\appless 1$ and some lower limit associated with the periastron separation at capture. If dissipation is taken into account, the binary goes through a short and violent chaotic phase, followed by a long quiescent phase in which it slowly circularizes from a high eccentricity on a much longer timescale than previously thought. A consequence is that merger is less likely than previously thought, and hence such binaries will be available as a heat source to the cores of globular clusters, particularly while they are in the less tightly bound, highly eccentric phase. If the model is correct, any highly eccentric binaries observed in globular clusters which contain a main-sequence star will most likely be found to have a period derivative much smaller than that predicted by the standard model. We also predict that the companion of PSR B1718-19 in NGC 6342 which is a globular cluster binary likely to have been formed by tidal capture (Wijers \& Paczy\'{n}ski 1993) will be found to have a mass of around $0.2M_\odot$. The model may be used to describe the evolution of low-mass X-ray binaries, pulsar binaries, and cataclysmic binaries which abound in globular clusters.
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