Title: The early-type close binary CV Velorum revisited Authors: K. Yakut, C. Aerts, Th. Morel
Our goal was to improve the fundamental parameters of the massive close double-lined eclipsing B2.5V+B2.5V binary CV Velorum. We gathered new high-resolution echelle spectroscopy on 13 almost consecutive nights covering essentially two orbits. We computed a simultaneous solution to all the available high-quality radial-velocity and light data with the latest version of the Wilson-Deviney code. We obtained the following values for the physical parameters: M_1 = 6.066(74) M_\odot, M_2 = 5.972(70) M_\odot, R_1 = 4.126(24) R_\odot, R_2 = 3.908(27) R_\odot, \log L_1 = 3.20(5) L_\odot, and \log L_2 = 3.14(5) L_\odot. The quoted errors contain a realistic estimate of systematic uncertainties mainly stemming from the effective temperature estimation. We derived abundances for both components and found them to be compatible with those of B stars in the solar neighbourhood. We discovered low-amplitude periodic line-profile variations with the orbital frequency for both components. Their interpretation requires new data with a longer time span. The primary rotates subsynchronously while the secondary's v\sin i and radius are compatible with synchronous rotation. Finally, we provide an update of the empirical mass-luminosity relation for main-sequence B stars which can be used for statistical predictions of masses or luminosities.