For almost 20 years, adaptive optics techniques have provided ground-based astronomers with space-quality images. With rapid, real-time analysis of the refraction of light from a so-called guide star—a star or other source above most of Earth’s atmosphere—a computer-controlled deformable mirror corrects for the distortion introduced by atmospheric turbulence and restores crisp detail to images. Most effective in the direction of the guide star, the correction degrades away from the guide star with a characteristic spread of about 15 arcseconds. An international learn led by Franck Marchis of the University of California, Berkeley, has recently demonstrated a new instrument designed to overcome that limitation: the European Southern Observatory’s Multi-Conjugate Adaptive Optics Demonstrator, or MAD.
MAD uses multiple guide stars and two deformable mirrors to correct for phase distortions over a broader range of angles; the resulting corrected area is 30 times larger. Shown here is a false-color IR image of Jupiter...
