Context. This work is part of a long-term spectroscopic study of a sample of
30 multiple stars with early-type components. In this second paper we present
the results of six multiple systems in which new stellar components have been
detected.
Aims. The main aim is to increase the knowledge of stellar properties and
dynamical structure of early-type multiple stellar systems.
Methods. Using spectroscopic observations taken over a time baseline of more
than 5 years we measured RVs by cross-correlations and applied a spectral
disentangling method to double-lined systems. Besides the discovery of objects
with double-lined spectra, the existence of new spectroscopic subsystems have
been inferred from the radial velocity variations of single-lined components
and through the variation of the barycentric velocity of double-lined
subsystems. Orbital elements have been calculated when possible.
Results. Seven new stellar components and two members that we expect to
confirm with new observations have been discovered in the six studied
multiples. We present orbital parameters for two double-lined binaries and
preliminary orbits for three single-lined spectroscopic binaries. Five of the
six analysed systems are quadruples, while the remaining has five components
distributed in four hierarchical levels. These multiplicity orders are in fact
lower limits, since these systems lack high-resolution visual observations and
additional hierarchical level might exist in that separation range.
Conclusions. The six analysed systems have greater multiplicity degree and a
more complex hierarchical structure than previously known, which suggests that
high-order multiple systems are significantly more frequent that it is
currently estimated. The long term spectroscopic monitoring of multiple systems
has shown to be useful for the detection of companions in intermediate
hierarchical levels.Comment: 13 pages, 9 figures. Accepted by Astronomy and Astrophysic