![]() In the initial testing phase, the LBT’s adaptive optics system achieved unprecedented Strehl Ratios of 84 percent, when existing adaptive optics systems on other major telescopes today score between 30 percent to 50 percent in the near-infrared wavelengths where the testing was conducted. Image sharpness is measured in Strehl ratio, where 100 percent represents a perfect image. The mirror can make adjustments every one-thousandth of a second, with accuracy to better than ten nanometers. A computer then calculates the optimal mirror shape required to correct the distortions and the surface of the mirror is suitably adjusted to compensate the distortion. A special wavefront sensor measures atmospheric distortions in real time. The LBT has a very thin secondary mirror that can be easily deformed by devices pushing on the 672 tiny magnets glued to its back. To correct atmospheric distortion, astronomers use adaptive optics technology. But the real problem is wavefront distortion caused by atmospheric instability that distorts the light passing through much the way water blurs the view from the bottom of a swimming pool. ![]() Traditional ground based telescope has to see through the Earth’s thick atmosphere that absorbs a significant amount of light before it reaches the telescope’s mirrors. The LBT is currently one of the world’s highest resolution and most technologically advanced optical telescopes.Įspecially praiseworthy is the adaptive optics device, called the First Light Adaptive Optics system. The binocular design, combined with advanced adaptive optics, gives the telescope exceptional sensitivity for the detection of faint objects. The Large Binocular Telescope has two identical 8.4 m telescopes mounted side-by-side on a common base that has the same light gathering ability as an 11.8 m wide single circular telescope and the resolving power of a 22.8 m wide one. Its design was inspired by the more modest optical equipment we usually carry around the neck. The Large Binocular Telescope (LBT) is an optical telescope located on Mount Graham at an altitude of 3,200 meters in the Pinaleno Mountains of southeastern Arizona.
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