* Astronomy

Title: First Resolved Images of the Eclipsing and Interacting Binary Beta Lyrae
Authors: M. Zhao (1), D. Gies (2), J. D. Monnier (1), N. Thureau (3), E. Pedretti (3), F. Baron (4), A. Merand (2), T. ten Brummelaar (2), H. McAlister (2), S. T. Ridgway (5), N. Turner (2), J. Sturmann (2), L. Sturmann (2), C. Farrington (2), P. J. Goldfinger (2) ((1). University of Michigan, (2). The CHARA Array, Georgia State University, (3). University of St. Andrews, Scotland, UK, (4).University of Cambridge, UK, (5).National Optical Astronomy Observatory, NOAO)

We present the first resolved images of the eclipsing binary Beta Lyrae, obtained with the CHARA Array interferometer and the MIRC combiner in the H band. The images clearly show the mass donor and the thick disk surrounding the mass gainer at all six epochs of observation. The donor is brighter and generally appears elongated in the images, the first direct detection of photospheric tidal distortion due to Roche-lobe filling. We also confirm expectations that the disk component is more elongated than the donor and is relatively fainter at this wavelength. Image analysis and model fitting for each epoch were used for calculating the first astrometric orbital solution for Beta Lyrae, yielding precise values for the orbital inclination and position angle. The derived semi-major axis also allows us to estimate the distance of Beta Lyrae; however, systematic differences between the models and the images limit the accuracy of our distance estimate to about 15%. To address these issues, we will need a more physical, self-consistent model to account for all epochs as well as the multi-wavelength information from the eclipsing light curves.
 
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