Journal
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 397, Issue 3, Pages 1577-1586Publisher
OXFORD UNIV PRESS
DOI: 10.1111/j.1365-2966.2009.15032.x
Keywords
methods: N-body simulations; binaries: general; stars: formation; open clusters and associations: general
Categories
Funding
- PPARC/STFC [PP/D002036/1]
- Sheffield-Bonn Royal Society International Joint
- STFC [PP/D002036/1] Funding Source: UKRI
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We examine the dynamical destruction of binary systems in star clusters of different densities. We find that at high densities (10(4)- 10(5) M-circle dot pc(-3)) almost all binaries with separations > 10(3) au are destroyed after a few crossing times. At low densities [O(10(2))M(circle dot)pc(-3)], many binaries with separations > 10(3) au are destroyed, and no binaries with separations > 10(4) au survive after a few crossing times. Therefore, the binary separations in clusters can be used as a tracer of the dynamical age and past density of a cluster. We argue that the central region of the Orion nebula cluster was similar to 100 times denser in the past with a half-mass radius of only 0.1-0.2 pc as (i) it is expanding, (ii) it has very few binaries with separations > 10(3) au and (iii) it is well mixed and therefore dynamically old. We also examine the origin of the field binary population. Binaries with separations < 10(2) au are not significantly modified in any cluster, therefore at these separations the field reflects the sum of all star formation. Binaries with separations in the range 10(2)- 10(4) au are progressively more and more heavily affected by dynamical disruption in increasingly dense clusters. If most star formation is clustered, these binaries must be overproduced relative to the field. Finally, no binary with a separation > 10(4) au can survive in any cluster and so must be produced by isolated star formation, but only if all isolated star formation produces extremely wide binaries.
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