SIMBAD references

2014MNRAS.444.3592D - Mon. Not. R. Astron. Soc., 444, 3592-3602 (2014/November-2)

Determining stellar macroturbulence using asteroseismic rotational velocities from Kepler.

DOYLE A.P., DAVIES G.R., SMALLEY B., CHAPLIN W.J. and ELSWORTH Y.

Abstract (from CDS):

The Rossiter-McLaughlin effect observed for transiting exoplanets often requires prior knowledge of the stellar projected equatorial rotational velocity (vsini). This is usually provided by measuring the broadening of spectral lines, however this method has uncertainties as lines are also broadened by velocity fields in the stellar photosphere known as macroturbulence (vmac). We have estimated accurate vsini values from asteroseismic analyses of main-sequence stars observed by Kepler. The rotational frequency splittings of the detected solar-like oscillations of these stars are determined largely by the near-surface rotation. These estimates have been used to infer the vmac values for 28 Kepler stars. Out of this sample, 26 stars were used along with the Sun to obtain a new calibration between vmac, effective temperature and surface gravity. The new calibration is valid for the temperature range 5200 to 6400 K and the gravity range 4.0 to 4.6 dex. A comparison is also provided with previous vmac calibrations. As a result of this work, vmac, and thus vsini, can now be determined with confidence for stars that do not have asteroseismic data available. We present new spectroscopic vsini values for the WASP planet host stars, using high-resolution HARPS spectra.

Abstract Copyright: © 2014 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society (2014)

Journal keyword(s): asteroseismology - line: profiles - planets and satellites: fundamental parameters - stars: rotation

Status at CDS:  

CDS comments: Table 3: HD 183606 is a misprint for HD 186306.

Simbad objects: 66

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2020.04.06-13:58:01

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