Astronomy and Astrophysics – Astrophysics
Scientific paper
Nov 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007a%26a...474..579c&link_type=abstract
Astronomy and Astrophysics, Volume 474, Issue 2, November I 2007, pp.579-584
Astronomy and Astrophysics
Astrophysics
6
Techniques: Radial Velocities, Techniques: Spectroscopic, Stars: Binaries: Close, Stars: Binaries: Eclipsing, Stars: Individual: Hs Herculis
Scientific paper
Aims:New high-resolution spectroscopic observations of the eclipsing binary HS Herculis are presented. The main aims were to determine the stellar parameters of the two components, their evolutionary stage, and to search for spectroscopic evidence for a possible third body. Methods: Using the cross-correlation technique, we detect spectroscopically the faint secondary component of HS Herculis, and for the firts time measure its radial velocity. The primary and secondary radial velocity curves are analyzed simultaneously and the results of the orbital solution are combined with those derived from multiband light curve analysis to derive orbital and stellar parameters. Results: We find the masses to be M_1= 4.49± 0.16 and M_2=1.75±0.09~M&sun;, the radii to be R_1=2.83±0.04 and R_2=1.61± 0.02~R&sun;, and the effective temperatures to be T_1=15 200 ± 750 K and T_2=7600±400 K for the primary and secondary stars, respectively. We also derive projected rotational velocities of the components as v1 sin i=81± 3 and v2 sin i=24± 6. Conclusions: While a synchronous rotation for the primary star is indicated by the broadening of the spectral lines, the secondary component appears to rotate more slowly, nearly one half the synchronous rotation velocity. This discrepancy indicates that the less massive secondary component could have not yet attained tidal synchronization. Although the presence of a third body physically bound to the eclipsing pair has been suggested by many investigators, we find no sign of its presence in our CCD spectra. The evolutionary stage of the system's components is briefly discussed by comparing their physical parameters with those of theoretical models. We find that the two components are located near the zero-age main sequence, with an age of about 32 Myr.
Based on observations collected at Catania Astrophysical Observatory, Italy.
Cakirli Omur
Frasca Antonio
Ibanoglu Cafer
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