Physics
Scientific paper
Mar 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007aspc..361..425g&link_type=abstract
Active OB-Stars: Laboratories for Stellar and Circumstellar Physics, ASP Conference Series, Vol. 361, Proceedings of the confere
Physics
1
Scientific paper
Projected rotational velocity parameter V_{e} sin i for selected stars has been determined using high-resolution spectroscopic observations from UVES and ELODIE databases and FEROS spectra. Applying the Fourier Transform Method this parameter can be precisely measured since (under classical approximations) the position of first minimum is determined only by rotational broadening, providing an estimate which is fairly insensitive to the assumptions about intrinsic line profile, micro and macro turbulence, eventually pulsational broadening and emission from circumstellar envelope, which is crucial for accurate determination of V_{e} sin i in Be stars (Neiner et al. 2002). We study in particular Achernar (α Eri) and Regulus (α Leo A), two stars in which the extreme oblateness has been recently discovered by interferometry. Since the Fourier Transform Method allows the detection of deviations from solid body rotation, rotational oblateness and gravity darkening (Reiners 2003), we discuss the extent to which our measurements reflect the actual projected equatorial rotation velocities.
Gavrilovic Natasa
Jankov Slobodan
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