The fundamental parameters of the roAp star γ Equulei

Context. A precise comparison of the predicted and observed locations of stars in the H-R diagram is needed when testing stellar interior theoretical models. For doing this, one must rely on accurate, observed stellar fundamental parameters (mass, radius, luminosity, and abundances). Aims. We determine the angular diameter of the rapidly oscillating Ap star, γ Equ, and derive its fundamental parameters from this value. Methods. We observed γ Equ with the visible spectro-interferometer VEGA installed on the optical CHARA interferometric array, and derived both the uniform-disk angular diameter and the limb-darkened diameter from the calibrated squared visibility. We then determined the luminosity and the effective temperature of the star from the whole energy flux distribution, the parallax, and the angular diameter. Results. We obtained a limb-darkened angular diameter of 0.564 ± 0.017 mas and deduced a radius of R = 2.20 ± 0.12 R� . Without considering the multiple nature of the system, we derived a bolometric flux of (3.12 ± 0.21) × 10 −7 erg cm −2 s −1 and an effective temperature of 7364 ± 235 K, which is below the previously determined effective temperature. Under the same conditions we found a luminosity of L = 12.8 ± 1.4 L� . When the contribution of the closest companion to the bolometric flux is considered, we found that ∞

[1]  O. Kochukhov Asteroseismology of chemically peculiar stars , 2008, 0812.0374.

[2]  The radius and effective temperature of the binary Ap star β CrB from CHARA/FLUOR and VLT/NACO observations , 2009, 0912.3215.

[3]  Evolutionary state of magnetic chemically peculiar stars , 2006, astro-ph/0601461.

[4]  D. Kurtz,et al.  The discovery of 8.0-min radial velocity variations in the strongly magnetic cool Ap star HD 154708, a new roAp star , 2006 .

[5]  B. Skiff,et al.  VizieR Online Data Catalog , 2009 .

[6]  H. L. Johnson,et al.  Astronomical Measurements in the Infrared , 1966 .

[7]  W. J. Tango,et al.  The fundamental parameters of the roAp star α Circini , 2008, 0803.1518.

[8]  G. L. Wycoff,et al.  The Tycho Double Star Catalogue , 2002 .

[9]  D. Sasselov,et al.  MOST photometry and modeling of the rapidly oscillating (roAp) star [gamma] Equulei , 2008, 0801.0863.

[10]  Wm. A. Wheaton,et al.  2MASS All Sky Catalog of point sources. , 2003 .

[11]  Wm. A. Wheaton,et al.  Spectral Irradiance Calibration in the Infrared. XIV. The Absolute Calibration of 2MASS , 2003, astro-ph/0304350.

[12]  Jaymie M. Matthews,et al.  Parallaxes versus p-Modes: Comparing Hipparcos and Asteroseismic Results for Pulsating Ap Stars , 1999 .

[13]  P. North,et al.  Detection of an extraordinarily large magnetic field in the unique ultra-cool Ap star HD 154708 , 2005 .

[14]  M. S. Cunha Theory of rapidly oscillating Ap stars , 2007 .

[15]  F. V. Leeuwen Validation of the new Hipparcos reduction , 2007, 0708.1752.

[16]  Nikolai Piskunov,et al.  Abundance stratification and pulsation in the atmosphere of the roAp star $\boldmath\gamma$ Equulei , 2002 .

[17]  Romain G. Petrov,et al.  VEGA: Visible spEctroGraph and polArimeter for the CHARA array: principle and performance , 2009 .

[18]  João Fernandes,et al.  Seismic tests of the structure of rapidly oscillating Ap stars: HR 1217 , 2003 .

[19]  To Appear in ApJ Preprint typeset using L ATEX style emulateapj v. 6/22/04 THE EFFECTIVE TEMPERATURE SCALE OF FGK STARS. II. Teff: COLOR: [Fe/H] CALIBRATIONS , 2008 .

[20]  S. T. Ridgway,et al.  First Results from the CHARA Array. II. A Description of the Instrument , 2005 .

[21]  G. G. Douglass,et al.  The Washington visual double star catalog, 1984. 0 , 1985 .