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| Paper: |
The Origin of Very Wide Binary Stars |
| Volume: |
451, 9th Pacific Rim Conference on Stellar Astrophysics |
| Page: |
9 |
| Authors: |
Kouwenhoven, M. B. N.; Goodwin, S. P.; Davies, M. B.; Parker, R. J.; Kroupa, P.; Malmberg, D. |
| Abstract: |
A large population of fragile, wide (>103 AU) binary systems
exists in the Galactic field and halo. These wide binary stars
cannot be primordial because of the high stellar density in star
forming regions, while formation by capture in the Galactic field is
highly improbable. We propose that these binary systems were formed
during the dissolution phase of star clusters (see Kouwenkoven et al. 2010, for details). Stars escaping from a dissolving star
cluster can have very similar velocities, which can lead to the
formation of a wide binary systems. We carry out N-body
simulations to test this hypothesis. The results indicate that this
mechanism explains the origin of wide binary systems in the
Galaxy. The resulting wide binary fraction and semi-major axis
distribution depend on the initial conditions of the dissolving star
cluster, while the distributions in eccentricity and mass ratio are
universal. Finally, since most stars are formed in (relatively
tight) primordial binaries, we predict that a large fraction of the
wide “binary stars'' are in fact higher-order multiple systems. |
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