We have obtained high-precision interferometric measurements of Vega with the CHARA Array and FLUOR beam combiner in the K' band at projected baselines between 103 and 273 m. The measured visibility amplitudes beyond the first lobe are significantly weaker than expected for a slowly rotating star characterized by a single effective temperature and surface gravity. Our measurements, when compared to synthetic visibilities and synthetic spectrophotometry from a Roche-von Zeipel gravity-darkened model atmosphere, provide strong evidence for the model of Vega as a rapidly rotating star viewed very nearly pole-on. Our best-fitting model indicates that Vega is rotating at ~91% of its angular break-up rate with an equatorial velocity of 275 km s[S...
We present an analysis of 1524 spectra of Vega spanning 10 yr, in which we search for periodic radia...
Context. A crucial issue in star formation is to understand the physical mechanism by which mass is ...
From adaptive optics observations with the Palomar 5 m telescope we place upper limits on the masses...
International audienceWe have obtained high-precision interferometric measurements of Vega with the ...
We have obtained high-precision interferometric measurements of the A0 V standard star Vega with the...
Optical and infrared interferometers definitively established that the photometric standard Vega ( =...
We have obtained high-precision measurements of Vega at projected baselines between 103 m and 273 m ...
Using the FLUOR beam-combiner installed at the CHARA Array (Mt. Wilson, CA), we have obtained highpr...
Context: Only a handful of debris disks have been imaged up to now. Due to the need for high dynamic...
Using the FLUOR near-infrared beam combiner installed at the CHARA Array (Mt Wilson, CA), we have ob...
We report on infrared interferometric observations of Vega obtained in May and June 2005 with the FL...
International audienceContext: Among optical stellar interferometers, the CHARA Array located at Mt ...
Context. The theoretically studied impact of rapid rotation on stellar evolution needs to be compare...
Using the FLUOR beam-combiner at the CHARA Array, we have obtained highprecision visibility measurem...
Near-infrared (2.2 um) long baseline interferometric observations of Vega are presented. The stellar...
We present an analysis of 1524 spectra of Vega spanning 10 yr, in which we search for periodic radia...
Context. A crucial issue in star formation is to understand the physical mechanism by which mass is ...
From adaptive optics observations with the Palomar 5 m telescope we place upper limits on the masses...
International audienceWe have obtained high-precision interferometric measurements of Vega with the ...
We have obtained high-precision interferometric measurements of the A0 V standard star Vega with the...
Optical and infrared interferometers definitively established that the photometric standard Vega ( =...
We have obtained high-precision measurements of Vega at projected baselines between 103 m and 273 m ...
Using the FLUOR beam-combiner installed at the CHARA Array (Mt. Wilson, CA), we have obtained highpr...
Context: Only a handful of debris disks have been imaged up to now. Due to the need for high dynamic...
Using the FLUOR near-infrared beam combiner installed at the CHARA Array (Mt Wilson, CA), we have ob...
We report on infrared interferometric observations of Vega obtained in May and June 2005 with the FL...
International audienceContext: Among optical stellar interferometers, the CHARA Array located at Mt ...
Context. The theoretically studied impact of rapid rotation on stellar evolution needs to be compare...
Using the FLUOR beam-combiner at the CHARA Array, we have obtained highprecision visibility measurem...
Near-infrared (2.2 um) long baseline interferometric observations of Vega are presented. The stellar...
We present an analysis of 1524 spectra of Vega spanning 10 yr, in which we search for periodic radia...
Context. A crucial issue in star formation is to understand the physical mechanism by which mass is ...
From adaptive optics observations with the Palomar 5 m telescope we place upper limits on the masses...