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A 37Ch Visible Adaptive Optics System for Wavefront Compensation
이준호,Byung Tae Choi,Eung Cheol Kang,Hae Seog Kho,Ho Jung Cheon,Jae Il Lee,Joon Won Kim,Kyung Muk Lee,Sung Jin Kim,Young Cheol Lee,Young Il Cho 한국물리학회 2006 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.49 No.1
A visible adaptive system was developed to compensate for phase distortions of a visible (He-Ne) laser. The visible adaptive optics (AO) system consists of 5 subsystems: a Shack-Hartmann wavefront sensor, a deformable membrane mirror of 15 mm with 37 actuators, a high-speed tip/tilt mirror of 20 mm, a position sensor and a control & display unit. The lab-developed Shack-Hartmann sensor was experimentally shown to have a measurement accuracy of better than RMS /50 at 0.6328 μm over the maximum phase distortion that the deformable mirror could generate, i.e., approximately /4. The adaptive optics system operated the deformable mirror at 10 Hz and the tip/tilt mirror at 30 Hz, which were, respectively, closed by the Shack-Hartmann sensor and the position sensor. The closed adaptive optics system was demonstrated to compensate for time-varying wavefront aberrations of PV (Peak-to-Valley) 1.2 μm with a time frequency of 1.4 Hz. The residual RMS wavefront error was shown to be smaller than 0.014 μm, i.e., /45 at 0.6328 μm.