50只眼睛群体中的高时间分辨率像差测量及其对自适应光学误差预算的影响。

High temporal resolution aberrometry in a 50-eye population and implications for adaptive optics error budget.

作者信息

Jarosz Jessica, Mecê Pedro, Conan Jean-Marc, Petit Cyril, Paques Michel, Meimon Serge

机构信息

ONERA - the French Aerospace Lab, Châtillon, France.

Quantel Medical, Cournon d'Auvergne, France.

出版信息

Biomed Opt Express. 2017 Mar 7;8(4):2088-2105. doi: 10.1364/BOE.8.002088. eCollection 2017 Apr 1.

DOI:10.1364/BOE.8.002088

PMID:28736657

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5512730/

Abstract

We formed a database gathering the wavefront aberrations of 50 healthy eyes measured with an original custom-built Shack-Hartmann aberrometer at a temporal frequency of 236 Hz, with 22 lenslets across a 7-mm diameter pupil, for a duration of 20 s. With this database, we draw statistics on the spatial and temporal behavior of the dynamic aberrations of the eye. Dynamic aberrations were studied on a 5-mm diameter pupil and on a 3.4 s sequence between blinks. We noted that, on average, temporal wavefront variance exhibits a power-law with radial order and temporal spectra follow a power-law with temporal frequency . From these statistics, we then extract guidelines for designing an adaptive optics system. For instance, we show the residual wavefront error evolution as a function of the number of corrected modes and of the adaptive optics loop frame rate. In particular, we infer that adaptive optics performance rapidly increases with the loop frequency up to 50 Hz, with gain being more limited at higher rates.

摘要

我们构建了一个数据库，该数据库收集了50只健康眼睛的波前像差数据。这些数据是使用一台原始的定制夏克-哈特曼像差仪在236赫兹的时间频率下测量得到的，测量时通过22个微透镜覆盖直径7毫米的瞳孔，持续时间为20秒。利用这个数据库，我们对眼睛动态像差的空间和时间行为进行了统计分析。我们在直径5毫米的瞳孔上以及眨眼之间的3.4秒序列上研究了动态像差。我们注意到，平均而言，时间波前方差呈现出与径向阶数相关的幂律，并且时间频谱遵循与时间频率相关的幂律。基于这些统计数据，我们随后提取了设计自适应光学系统的指导原则。例如，我们展示了残余波前误差随校正模式数量和自适应光学环路帧率的变化情况。特别地，我们推断出，自适应光学性能随着环路频率增加到50赫兹而迅速提升，在更高频率时增益则更为有限。

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