Abstract

We reanalyzed high quality spectra of 158 stars of spectral types A0--F1 and $v \sin{i}$ between 60 and 150 km s$^{-1}$. Using a Least Squares Deconvolution technique we extracted high $S/N$ broadening profiles and determined the loci of the Fourier transform zeros $q_{1}$ and $q_{2}$ where the $S/N$-ratio was high enough. The values of $v \sin{i}$ were redetermined and found to be consistent with the values derived by \cite{Royer02a}. For 78 stars $q_{2}$ could be determined and the ratio $q_{2}/q_{1}$ was used as a shape parameter sensitive for solar-like differential rotation (Equator faster than Pole). 74 of the 78 stars have values of $q_{2}/q_{1}$ consistent with solid body rotation; in four of the 78 cases, values of $q_{2}/q_{1}$ are not consistent with rigid rotation. Although these stars may be binaries, none of the profiles shows signatures of a companion. The Fourier transforms do not indicate any distortions and the broadening profiles can be considered due to single objects. One of those candidates may be an extremely rapid rotator seen pole-on, but for the other three stars of spectral types as early as A6, differential rotation seems to be the most plausible explanation for the peculiar profiles.

Highlights

  • The substantial difference between photospheres of solar-type stars and A-type stars is the existence of a convective envelope

  • The interaction of magnetic fields, differential rotation and the convective envelopes are believed to be responsible for stellar activity

  • It is generally accepted that the onset of stellar activity occurs between spectral types A7 and F5 depending on the observational strategy

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Summary

Introduction

The substantial difference between photospheres of solar-type stars and A-type stars is the existence of a convective envelope. The interaction of magnetic fields, differential rotation and the convective envelopes are believed to be responsible for stellar activity. It is generally accepted that the onset of stellar activity occurs between spectral types A7 and F5 depending on the observational strategy. Gray & Nagel (1989) directly searched for the onset of convection analyzing line bisectors of slowly rotating stars. In their targets the Doppler-shift distribution of the granulation dominates the broadening of spectral lines and a bisector reversal was found around spectral type F0. Using line profiles, Reiners & Schmitt (2003) found signatures of differential rotation in a sample of F-type stars.

Observations and data analysis
Results
Binarity
HD 60 555
HD 6869

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