Abstract
Context. Fast rotation is responsible for important changes in the structure and evolution of stars and the way we see them. Optical long baseline interferometry now allows for the study of its effects on the stellar surface, mainly gravity darkening and flattening. Aims. We aim to determine the fundamental parameters of the fast-rotating star Altair, in particular its evolutionary stage (represented here by the core hydrogen mass fraction Xc), mass, and differential rotation, using state-of-the-art stellar interior and atmosphere models together with interferometric (ESO-VLTI), spectroscopic, and asteroseismic observations. Methods. We use ESTER two-dimensional stellar models to produce the relevant surface parameters needed to create intensity maps from atmosphere models. Interferometric and spectroscopic observables are computed from these intensity maps and several stellar parameters are then adjusted using the publicly available MCMC algorithm Emcee. Results. We determined Altair’s equatorial radius to be Req = 2.008 ± 0.006 R⊙, the position angle PA = 301.1 ± 0.3°, the inclination i = 50.7 ± 1.2°, and the equatorial angular velocity Ω = 0.74 ± 0.01 times the Keplerian angular velocity at equator. This angular velocity leads to a flattening of ε = 0.220 ± 0.003. We also deduce from the spectroscopically derived v sin i ≃ 243 km s−1, a true equatorial velocity of ∼314 km s−1 corresponding to a rotation period of 7h46m (∼3 cycles/day). The data also impose a strong correlation between mass, metallicity, hydrogen abundance, and core evolution. Thanks to asteroseismic data, and provided our frequencies identification is correct, we constrain the mass of Altair to 1.86 ± 0.03 M⊙ and further deduce its metallicity Z = 0.019 and its core hydrogen mass fraction Xc = 0.71, assuming an initial solar hydrogen mass fraction X = 0.739. These values suggest that Altair is a young star ∼100 Myr old. Finally, the 2D ESTER model also gives the internal differential rotation of Altair, showing that its core rotates approximately 50% faster than the envelope, while the surface differential rotation does not exceed 6%.
Highlights
A large fraction of intermediate-mass and massive stars have high rotation rates (Zorec & Royer 2012; Ramírez-Agudelo et al 2013)
We present the different attempts at determining the following parameters of Altair: mass (M), equatorial radius (Req), angular velocity (Ω, expressed as a fraction of the Keplerian angular velocity6, ΩK = GM/R3eq), metallicity (Z), hydrogen mass fraction in the core (Xc), inclination (i), position angle (PA), and the metallicity of the atmosphere models ([M/H])
We conducted a multi-technique analysis of the star Altair (HD 187642) using interferometry, spectroscopy, and seismology. This kind of analysis was performed by comparing observational data with intensity maps computed from a full two-dimensional model of the stellar interior (ESTER) and surface
Summary
A large fraction of intermediate-mass and massive stars have high rotation rates (Zorec & Royer 2012; Ramírez-Agudelo et al 2013). At high initial masses, stars rotate (on average) rapidly, up to several hundred km s−1 for the fastest (Royer 2009) Such high rotation rates, which sometimes bring stars close to break-up, have a strong impact on their internal structure and evolution. Unless they possess a strong magnetic field, and early-type stars rarely do, many of these stars exhibit signs of differential rotation (Reiners 2007). This differential rotation induces meridional circulation and small-scale turbulence that carry matter and angular momentum (Mestel 1953). This effect is commonly called “rotational mixing”, and while it brings fresh hydrogen to the core, increasing the time the star spends in the main sequence (MS) phase (some stars may even skip the Blue Loop in the giant phase Georgy et al 2013), it brings elements formed in the
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