One difficulty with finding extrasolar planets is that a planet’s light is overwhelmed by that of its parent star. To block that light, astronomers typically occult the star with a disk in an instrument called a coronagraph. At the University of Arizona, however, Grover Swartzlander’s group has developed another method: They focus the primary star onto the very center of a so-called optical vortex lens, which acts like a helical phase mask, and the on-axis source of light is removed from the optical path while the off-axis source of light passes through. Shown here is the central region of a 2-mm square OVL. The instrumentalists put the OVL into a coronagraph, incorporated some adaptive optics to eliminate the twinkling caused by atmospheric turbulence, and mounted the entire package on an 8-inch telescope that they pointed at the binary star system Cor Caroli in the constellation Canes Venatici. Without the optical...
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1 September 2008
September 01 2008
Citation
Stephen G. Benka; Optical vortex coronagraph demonstrated. Physics Today 1 September 2008; 61 (9): 22. https://doi.org/10.1063/1.4796944
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