Evaluation index of the actual resolution after correction of adaptive optical system

卫沛锋 Wei Peifeng, 刘欣悦 Liu Xin-yue, 林旭东 Lin Xu-dong, 董. D. Lei, 王鸣浩 Wang Ming-hao
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Abstract

A new index,Resolved Cells Ratio( RCR),was proposed to evaluate the actual resolution of ground-based large-aperture telescope for spatial objective observation after adaptive optical system partial correcting. We discussed the physical meaning of the RCR combined with the observation instances of the 1. 23 adaptive optical telescope. The range of the application of the RCR,the error influence factors and the effect of the atmospheric dispersion on the RCR were also analyzed. The result shows that the RCR could completely reflect the correction effectiveness of the adaptive optical telescope and the physical meaning of the RCR wasintuitive. RCR can be applied to the estimation of the correction effectiveness of a telescope that can get the characterization of the wavefront. The error of the RCR mainly depend on the measurement error of the wavefront sensor. The effect of atmospheric dispersion on the RCR can be neglected.
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自适应光学系统校正后实际分辨率的评价指标
提出了一种新的自适应光学系统部分校正后地面大口径望远镜空间物镜观测实际分辨率评价指标——分辨单元比(Resolved Cells Ratio, RCR)。结合1的观测实例,讨论了RCR的物理意义。23 .自适应光学望远镜。分析了RCR的适用范围、误差影响因素以及大气色散对RCR的影响。结果表明,RCR能完全反映自适应光学望远镜的校正效果,RCR的物理意义直观。RCR可以用于估计望远镜的校正效果,从而得到波前的特征。RCR的误差主要取决于波前传感器的测量误差。大气色散对RCR的影响可以忽略不计。
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