实时无传感器自适应光学相干断层扫描的深度分辨优化。

Depth-resolved optimization of a real-time sensorless adaptive optics optical coherence tomography.

出版信息

Opt Lett. 2020 May 1;45(9):2612-2615. doi: 10.1364/OL.390134.

Abstract

Sensorless adaptive optics optical coherence tomography (AO-OCT) is a technology to image retinal tissue with high resolution by compensating ocular aberrations without wavefront sensors. In this Letter, a fast and robust hill-climbing algorithm is developed to optimize five Zernike modes in AO-OCT with a numerical aperture between that of conventional AO and commercial OCT systems. The merit function is generated in real time using graphics processing unit while axially tracking the retinal layer of interest. A new method is proposed to estimate the largest achievable field of view for which aberrations are corrected uniformly in sensorless AO-OCT.

摘要

无传感器自适应光学光相干断层扫描（AO-OCT）是一种通过补偿眼像差而无需波前传感器来实现高分辨率视网膜组织成像的技术。在本信中，开发了一种快速而鲁棒的爬山算法，用于优化传统 AO 和商业 OCT 系统之间的数值孔径的 AO-OCT 中的五个泽尼克模式。在实时跟踪感兴趣的视网膜层时，使用图形处理单元生成 merit 函数。提出了一种新方法来估计最大可实现视野，在该视野中可以均匀地校正无传感器 AO-OCT 中的像差。

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实时无传感器自适应光学相干断层扫描的深度分辨优化。

Depth-resolved optimization of a real-time sensorless adaptive optics optical coherence tomography.

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