Václav Pavlík
Published 2020-01-06Version 1
Observational results of young star-forming regions suggest that star clusters are completely mass segregated at birth. As a star cluster evolves dynamically, these initial conditions are gradually lost. For star clusters with single stars only and a canonical IMF, it has been suggested that traces of these initial conditions vanish at $\tau_{\rm v}$ between 3 and 3.5 half-mass relaxation times. By the means of numerical models, here we investigate the role of the primordial binary population on the loss of primordial mass segregation. We found that $\tau_{\rm v}$ does not seem to depend on the binary star distribution, yielding $3 < \tau_{\rm v} / t_{\rm rh} < 3.5$. We also conclude that the completely mass segregated clusters, even with binaries, are more compatible with the present-day ONC than the non-segregated ones.
Comments: 5 pages, 2 figures, will be published in Contrib. Astron. Obs. Skalnate Pleso, 2020 (from conference "Universe of Binaries, Binaries in the Universe" in 2019)
Primordial mass segregation of star clusters with primordial binaries
Primordial mass segregation in simulations of star formation?
Testing the initial conditions and dynamical evolution of star clusters using Gaia - I
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