First Results from the CHARA Array. III. Oblateness, Rotational Velocity and Gravity Darkening of Alderamin

Abstract

We present observations of the A7IV-V star Alderamin (α Cep, HR 8162, HD 203280) from the Georgia State University CHARA Array. These infrared interferometric angular size measurements indicate a non-circular projected disk brightness distribution for this known rapid rotator. The interferometric observations are modeled as arising from an elongated rigid atmosphere, with apparent polar and equatorial radii of rp=0.6753+0.0119-0.0135 milliarcseconds (mas) and re=0.8767+0.0293-0.0183 mas, respectively, for a difference of 201 32 microarcseconds (μas), and with an axial ratio of re/rp =1.298 0.051. Using the Hipparcos distance of 14.96 0.11 pc, these angular measures translate to 2.180.05 and 2.820.10 R. The inclination of Alderamin to the line of sight indicated by this modeling is effectively edge-on (i=88.2+1.8-13.3). The star has a true rotational velocity of 283 10 km/s (83% of breakup velocity), and a polar temperature of roughly 8400 K. Significantly, a necessary aspect of this modeling is a determination of the gravity darkening coefficient, which at a value of β=0.084+0.026-0.049 is consistent with a convective photosphere, as expected for an A7IV-V star. Our detailed characterization of this object allows us to investigate various scenarios for the angular momentum history of Alderamin and the appropriateness of certain stellar evolution models.

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