Open AccessBinaries in globular clusters
Author(s) -
Piet Hut,
Steve McMillan,
Jeremy Goodman,
Mario Mateo,
E. S. Phinney,
C. Pryor,
Harvey B. Richer,
F. Verbunt,
Martin D. Weinberg
Publication year - 1992
Publication title -
publications of the astronomical society of the pacific
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.294
H-Index - 172
eISSN - 1538-3873
pISSN - 0004-6280
DOI - 10.1086/133085
Subject(s) - globular cluster , physics , astrophysics , astronomy , star cluster , halo , binary number , population , pulsar , blue straggler , stars , binary star , stellar evolution , cluster (spacecraft) , galaxy , demography , arithmetic , mathematics , sociology , computer science , programming language
Binary stars in a globular cluster (hereafter, GC) may be primordial (i.e. formed along with the cluster), or the result of cluster dynamics. “Dynamical” binaries can result from conservative three-body encounters (e.g. Spitzer, 1987) if a third star can carry away enough kinetic energy to leave two others bound, or from dissipative two-body encounters, if two stars happen to pass within a few stellar radii of one other (Fabian, Pringle, & Rees, 1975). Such non-primordial systems are likely to be found primarily in evolved GC cores, both because conditions are more favorable for making them there, and because of mass segregation. Knowledge of the formation process allows reasonable estimates to be made of their mass and energy distributions. The initial spatial, mass, and energy distributions of primordial binaries, on the other hand, are largely unknown.
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