Abstract
The Large Binocular Telescope (LBT) will be the largest single telescope in the world when it is completed in 2005. The unique structure of the telescope incorporates two, 8.4 meter diameter primary mirrors on a 14.4 meter center-to-center mounting. This configuration provides the equivalent collecting area of a 12 meter telescope, and when combined coherently, the two optical paths offer very interesting possibilities for interferometry. Two initial interferometric instruments are planned for the LBT. A group based at the University of Arizona is constructing LBTI, a pupil-plane, nulling beam combiner operating in the thermal infrared N band. This instrument will search for and measure zodiacal light in candidate stellar systems for the Terrestrial Planet Finder (TPF) and Darwin missions. Expansion ports can accomodate additional instruments. A second group, based in Heidelberg, Arcetri, and Köln, is building LINC-NIRVANA, a near-infrared Fizeau-mode beam combiner. This type of observation preserves phase information and allows true imagery over a wide field of view. Using state-of-the-art detector arrays, coupled with advanced adaptive optics, LINC-NIRVANA will deliver the sensitivity of a 12 m telescope and the spatial resolution of a 23 m telescope, over a field of view up to 2 arcminutes square.
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References
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Herbst, T.M., Ragazzoni, R., Andersen, D., Böhnhardt H., Bizenberger, P., Eckart, A., Gaessler, W., Rix, H.-W., Rohloff, R.-R., Salinari, P., Soci, R., Straubmeier, C. and Xu, W.: 2002, LINCNIRVANA: A fizeau beam combiner for the large binocular telescope, SPIE 4838 – 110.
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© 2003 Springer Science+Business Media Dordrecht
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Herbst, T. (2003). Interferometry with the Large Binocular Telescope. In: Garcia, P.J.V., Glindemann, A., Henning, T., Malbet, F. (eds) The Very Large Telescope Interferometer Challenges for the Future. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-0157-0_4
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DOI: https://doi.org/10.1007/978-94-017-0157-0_4
Publisher Name: Springer, Dordrecht
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