Binary fraction of O and B-type stars from LAMOST data

Abstract

Binary stars plays important role in the evolution of stellar populations . The intrinsic binary fraction (fbin) of O and B-type (OB) stars in LAMOST DR5 was investigated in this work. We employed a cross-correlation approach to estimate relative radial velocities for each of the stellar spectra. The algorithm described by 2013A&A...550A.107S was implemented and several simulations were made to assess the performance of the approach. Binary fraction of the OB stars are estimated through comparing the uni-distribution between observations and simulations with the Kolmogorov-Smirnov tests. Simulations show that it is reliable for stars most of whom have 6,7 and 8 repeated observations. The uncertainty of orbital parameters of binarity become larger when observational frequencies decrease. By adopting the fixed power exponents of π=-0.45 and =-1 for period and mass ratio distributions, respectively, we obtain that fbin=0.4-0.06+0.05 for the samples with more than 3 observations. When we consider the full samples with at least 2 observations, the binary fraction turns out to be 0.37-0.03+0.03. These two results are consistent with each other in 1σ.