Astronomisches Rechen-Institut Heidelberg

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Preprint No. 98

Author(s): Giersz, M., Spurzem, R.
Title: A stochastic Monte Carlo approach to model real star cluster evolution. II: Self-consistent models and primordial binaries.
Source: to appear in Mon. Not. R. Astron. Soc.
Year: 1999
Abstract: The new approach outlined in Paper I (Spurzem & Giersz 1996) to follow the individual formation and evolution of binaries in an evolving, equal point-mass star cluster is extended for the self-consistent treatment of relaxation and close three- and four-body encounters for many binaries (typically a few percent of the initial number of stars in the cluster mass initially). The distribution of single stars is treated as a conducting gas sphere with a standard anisotropic gaseous model. A Monte Carlo technique is used to model the motion of binaries, their formation and subsequent hardening by close encounters, and their relaxation (dynamical friction) with single stars and other binaries. The results are a further approach towards a realistic model of globular clusters with primordial binaries without using special hardware. We present, as our main result, the self-consistent evolution of a cluster consisting of 300.000 equal point-mass stars, plus 30.000 equal mass binaries over several hundred half-mass relaxation times, well into the phase where most of the binaries have been dissolved and evacuated from the core. The cluster evolution is about three times slower than found by Gao et al. (1991). Other features are rather comparable. At every moment we are able to show the individual distribution of binaries in the cluster.
Preprint issued: November 1999
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