High Resolution Imaging of Astronomical Objects Using Deconvolution from Wave-Front Sensing Experimental Demonstration

Signal Recovery and Synthesis Pub Date : 1900-01-01 DOI:10.1364/srs.1995.rwa4
D. Dayton, S. Sandven, J. Gonglewski
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Abstract

It is well known that the image forming ability of an astronomical optic system is limited by distortions due to a turbulent atmosphere1. A large aperture telescope will have no more resolving power than one with a diameter equal to Fried’s rO parameter which is usually between 5 and 10 centimeters. Recently, technological development in the areas of wave-front sensing and deformable mirrors have lead to adaptive optic systems. These systems attempt to measure the atmosphere induced wave-front distortion and cancel it through the use of a deformable mirror. Due to the short correlation time of the atmosphere, they require a high bandwidth multi-input multi-output control system.
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基于波前传感反褶积的天文目标高分辨率成像实验演示
众所周知,天文光学系统的成像能力受到湍流大气造成的畸变的限制。大口径望远镜的分辨能力不会比直径等于弗里德rO参数(通常在5到10厘米之间)的望远镜高。近年来,在波前传感和变形镜领域的技术发展导致了自适应光学系统的出现。这些系统试图测量大气引起的波前畸变,并通过使用可变形镜来消除它。由于大气的相关时间短,需要高带宽的多输入多输出控制系统。
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Signal Recovery and Synthesis
Signal Recovery and Synthesis
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